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I have the following code which is used to print diagonal matrix alternatively. Please look at my code and tell me what is wrong with it ?
class Solution:
def findDiagonalOrder(self, matrix: List[List[int]]) -> List[int]:
# No. of rows
m=len(matrix)
# No. of columns
n=len(matrix[0])
# Counter to alternatively switch the direction.
up=True
# list to store the result
l=[]
i,j,count=0,0,0
# loop for traversing all the elements.
while(count<=m*n):
if(up):
while(i>=0 and j<n):
l.append(matrix[i][j])
count+=1
i-=1
j+=1
if(i<0 and j<n):
i=0
if(j==n):
i=i+2
j=j-1
else:
while(j>=0 and i<m):
l.append(matrix[i][j])
count+=1
j-=1
i+=1
if(j<0 and i<m):
j=0
if(i==m):
j=j+2
i=i-1
up= not up
print(l)
Input :
[
[1,2,3],
[4,5,6],
[7,8,9]
]
Expected Answer :
[1,2,4,7,5,3,6,8,9]
Actual Answer :
Line 22: IndexError: list index out of range
Your code works, just change your while (count <= m * n) to while (count < m * n).
def findDiagonalOrder(matrix):
# No. of rows
m = len(matrix)
# No. of columns
n = len(matrix[0])
# Counter to alternatively switch the direction.
up = True
# list to store the result
l = []
i, j, count = 0, 0, 0
# loop for traversing all the elements.
while (count < m * n):
if (up):
while (i >= 0 and j < n):
l.append(matrix[i][j])
count += 1
i -= 1
j += 1
if (i < 0 and j < n):
i = 0
if (j == n):
i = i + 2
j = j - 1
else:
while (j >= 0 and i < m):
l.append(matrix[i][j])
count += 1
j -= 1
i += 1
if (j < 0 and i < m):
j = 0
if (i == m):
j = j + 2
i = i - 1
up = not up
print(l)
matrix = [
[1,2,3],
[4,5,6],
[7,8,9]
]
findDiagonalOrder(matrix)
#[1, 2, 4, 7, 5, 3, 6, 8, 9]
I have a two dimensional list that I have to sort and I have to only use while loops. So far my code does not work for all lists.
def sort(list):
i = 0
j = 0
while i < len(list):
while j < len(list[i]) - 1:
if list[i][j] > list[i][j + 1]:
temp = list[i][j]
list[i][j] = list[i][j + 1]
list[i][j + 1] = temp
j += 1
j = 0
i += 1
return list
sort([[3,5,2,8,6,9],[9,1,2,5]])
This code still has numbers out of order. Is there a better way to sort?
Your inner loop takes only one pass through the list. This guarantees that the largest element is at the end, but doesn't necessarily do anythign else. You need to add a loop to continue while you still have unfinished business.
I left in the tracing statements I used to highlight the problem, as well as the simple reverse-order case.
def sort(list):
i = 0
j = 0
while i < len(list):
done = False
while not done:
done = True
while j < len(list[i]) - 1:
print i, j, list[i][j], list[i][j + 1]
if list[i][j] > list[i][j + 1]:
temp = list[i][j]
list[i][j] = list[i][j + 1]
list[i][j + 1] = temp
done = False
print "SWAP", list[i]
j += 1
j = 0
i += 1
return list
print sort([[6, 5, 4, 3, 2, 1, 0]])
print sort([[3,5,2,8,6,9],[9,1,2,5]])
In class we are doing sorting algorithms and, although I understand them fine when talking about them and writing pseudocode, I am having problems writing actual code for them.
This is my attempt in Python:
mylist = [12, 5, 13, 8, 9, 65]
def bubble(badList):
length = len(badList) - 1
unsorted = True
while unsorted:
for element in range(0,length):
unsorted = False
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
print badList
else:
unsorted = True
print bubble(mylist)
Now, this (as far as I can tell) sorts correctly, but once it finishes it just loops indefinitely.
How can this code be fixed so the function finishes properly and correctly sorts a list of any (reasonable) size?
P.S. I know I should not really have prints in a function and I should have a return, but I just have not done that yet as my code does not really work yet.
To explain why your script isn't working right now, I'll rename the variable unsorted to sorted.
At first, your list isn't yet sorted. Of course, we set sorted to False.
As soon as we start the while loop, we assume that the list is already sorted. The idea is this: as soon as we find two elements that are not in the right order, we set sorted back to False. sorted will remain True only if there were no elements in the wrong order.
sorted = False # We haven't started sorting yet
while not sorted:
sorted = True # Assume the list is now sorted
for element in range(0, length):
if badList[element] > badList[element + 1]:
sorted = False # We found two elements in the wrong order
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
# We went through the whole list. At this point, if there were no elements
# in the wrong order, sorted is still True. Otherwise, it's false, and the
# while loop executes again.
There are also minor little issues that would help the code be more efficient or readable.
In the for loop, you use the variable element. Technically, element is not an element; it's a number representing a list index. Also, it's quite long. In these cases, just use a temporary variable name, like i for "index".
for i in range(0, length):
The range command can also take just one argument (named stop). In that case, you get a list of all the integers from 0 to that argument.
for i in range(length):
The Python Style Guide recommends that variables be named in lowercase with underscores. This is a very minor nitpick for a little script like this; it's more to get you accustomed to what Python code most often resembles.
def bubble(bad_list):
To swap the values of two variables, write them as a tuple assignment. The right hand side gets evaluated as a tuple (say, (badList[i+1], badList[i]) is (3, 5)) and then gets assigned to the two variables on the left hand side ((badList[i], badList[i+1])).
bad_list[i], bad_list[i+1] = bad_list[i+1], bad_list[i]
Put it all together, and you get this:
my_list = [12, 5, 13, 8, 9, 65]
def bubble(bad_list):
length = len(bad_list) - 1
sorted = False
while not sorted:
sorted = True
for i in range(length):
if bad_list[i] > bad_list[i+1]:
sorted = False
bad_list[i], bad_list[i+1] = bad_list[i+1], bad_list[i]
bubble(my_list)
print my_list
(I removed your print statement too, by the way.)
The goal of bubble sort is to move the heavier items at the bottom in each round, while moving the lighter items up. In the inner loop, where you compare the elements, you don't have to iterate the whole list in each turn. The heaviest is already placed last. The swapped variable is an extra check so we can mark that the list is now sorted and avoid continuing with unnecessary calculations.
def bubble(badList):
length = len(badList)
for i in range(0,length):
swapped = False
for element in range(0, length-i-1):
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
swapped = True
if not swapped: break
return badList
Your version 1, corrected:
def bubble(badList):
length = len(badList) - 1
unsorted = True
while unsorted:
unsorted = False
for element in range(0,length):
#unsorted = False
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
unsorted = True
#print badList
#else:
#unsorted = True
return badList
This is what happens when you use variable name of negative meaning, you need to invert their values. The following would be easier to understand:
sorted = False
while not sorted:
...
On the other hand, the logic of the algorithm is a little bit off. You need to check whether two elements swapped during the for loop. Here's how I would write it:
def bubble(values):
length = len(values) - 1
sorted = False
while not sorted:
sorted = True
for element in range(0,length):
if values[element] > values[element + 1]:
hold = values[element + 1]
values[element + 1] = values[element]
values[element] = hold
sorted = False
return values
Your use of the Unsorted variable is wrong; you want to have a variable that tells you if you have swapped two elements; if you have done that, you can exit your loop, otherwise, you need to loop again. To fix what you've got here, just put the "unsorted = false" in the body of your if case; remove your else case; and put "unsorted = true before your for loop.
def bubble_sort(l):
for passes_left in range(len(l)-1, 0, -1):
for index in range(passes_left):
if l[index] < l[index + 1]:
l[index], l[index + 1] = l[index + 1], l[index]
return l
#A very simple function, can be optimized (obviously) by decreasing the problem space of the 2nd array. But same O(n^2) complexity.
def bubble(arr):
l = len(arr)
for a in range(l):
for b in range(l-1):
if (arr[a] < arr[b]):
arr[a], arr[b] = arr[b], arr[a]
return arr
You've got a couple of errors in there. The first is in length, and the second is in your use of unsorted (as stated by McWafflestix). You probably also want to return the list if you're going to print it:
mylist = [12, 5, 13, 8, 9, 65]
def bubble(badList):
length = len(badList) - 2
unsorted = True
while unsorted:
for element in range(0,length):
unsorted = False
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
print badList
unsorted = True
return badList
print bubble(mylist)
eta: You're right, the above is buggy as hell. My bad for not testing through some more examples.
def bubble2(badList):
swapped = True
length = len(badList) - 2
while swapped:
swapped = False
for i in range(0, length):
if badList[i] > badList[i + 1]:
# swap
hold = badList[i + 1]
badList[i + 1] = badList[i]
badList[i] = hold
swapped = True
return badList
I am a fresh fresh beginner, started to read about Python yesterday.
Inspired by your example I created something maybe more in the 80-ties style, but nevertheless it kinda works
lista1 = [12, 5, 13, 8, 9, 65]
i=0
while i < len(lista1)-1:
if lista1[i] > lista1[i+1]:
x = lista1[i]
lista1[i] = lista1[i+1]
lista1[i+1] = x
i=0
continue
else:
i+=1
print(lista1)
The problem with the original algorithm is that if you had a lower number further in the list, it would not bring it to the correct sorted position. The program needs to go back the the beginning each time to ensure that the numbers sort all the way through.
I simplified the code and it will now work for any list of numbers regardless of the list and even if there are repeating numbers. Here's the code
mylist = [9, 8, 5, 4, 12, 1, 7, 5, 2]
print mylist
def bubble(badList):
length = len(badList) - 1
element = 0
while element < length:
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
element = 0
print badList
else:
element = element + 1
print bubble(mylist)
def bubble_sort(l):
exchanged = True
iteration = 0
n = len(l)
while(exchanged):
iteration += 1
exchanged = False
# Move the largest element to the end of the list
for i in range(n-1):
if l[i] > l[i+1]:
exchanged = True
l[i], l[i+1] = l[i+1], l[i]
n -= 1 # Largest element already towards the end
print 'Iterations: %s' %(iteration)
return l
def bubbleSort(alist):
if len(alist) <= 1:
return alist
for i in range(0,len(alist)):
print "i is :%d",i
for j in range(0,i):
print "j is:%d",j
print "alist[i] is :%d, alist[j] is :%d"%(alist[i],alist[j])
if alist[i] > alist[j]:
alist[i],alist[j] = alist[j],alist[i]
return alist
alist = [54,26,93,17,77,31,44,55,20,-23,-34,16,11,11,11]
print bubbleSort(alist)
def bubble_sort(a):
t = 0
sorted = False # sorted = False because we have not began to sort
while not sorted:
sorted = True # Assume sorted = True first, it will switch only there is any change
for key in range(1,len(a)):
if a[key-1] > a[key]:
sorted = False
t = a[key-1]; a[key-1] = a[key]; a[key] = t;
print a
A simpler example:
a = len(alist)-1
while a > 0:
for b in range(0,a):
#compare with the adjacent element
if alist[b]>=alist[b+1]:
#swap both elements
alist[b], alist[b+1] = alist[b+1], alist[b]
a-=1
This simply takes the elements from 0 to a(basically, all the unsorted elements in that round) and compares it with its adjacent element, and making a swap if it is greater than its adjacent element. At the end the round, the last element is sorted, and the process runs again without it, until all elements have been sorted.
There is no need for a condition whether sort is true or not.
Note that this algorithm takes into consideration the position of the numbers only when swapping, so repeated numbers will not affect it.
PS. I know it has been very long since this question was posted, but I just wanted to share this idea.
def bubble_sort(li):
l = len(li)
tmp = None
sorted_l = sorted(li)
while (li != sorted_l):
for ele in range(0,l-1):
if li[ele] > li[ele+1]:
tmp = li[ele+1]
li[ele+1] = li [ele]
li[ele] = tmp
return li
def bubbleSort ( arr ):
swapped = True
length = len ( arr )
j = 0
while swapped:
swapped = False
j += 1
for i in range ( length - j ):
if arr [ i ] > arr [ i + 1 ]:
# swap
tmp = arr [ i ]
arr [ i ] = arr [ i + 1]
arr [ i + 1 ] = tmp
swapped = True
if __name__ == '__main__':
# test list
a = [ 67, 45, 39, -1, -5, -44 ];
print ( a )
bubbleSort ( a )
print ( a )
def bubblesort(array):
for i in range(len(array)-1):
for j in range(len(array)-1-i):
if array[j] > array[j+1]:
array[j], array[j+1] = array[j+1], array[j]
return(array)
print(bubblesort([3,1,6,2,5,4]))
arr = [5,4,3,1,6,8,10,9] # array not sorted
for i in range(len(arr)):
for j in range(i, len(arr)):
if(arr[i] > arr[j]):
arr[i], arr[j] = arr[j], arr[i]
print (arr)
I consider adding my solution because ever solution here is having
greater time
greater space complexity
or doing too much operations
then is should be
So, here is my solution:
def countInversions(arr):
count = 0
n = len(arr)
for i in range(n):
_count = count
for j in range(0, n - i - 1):
if arr[j] > arr[j + 1]:
count += 1
arr[j], arr[j + 1] = arr[j + 1], arr[j]
if _count == count:
break
return count
If anyone is interested in a shorter implementation using a list comprehension:
def bubble_sort(lst: list) -> None:
[swap_items(lst, i, i+1) for left in range(len(lst)-1, 0, -1) for i in range(left) if lst[i] > lst[i+1]]
def swap_items(lst: list, pos1: int, pos2: int) -> None:
lst[pos1], lst[pos2] = lst[pos2], lst[pos1]
Here is a different variation of bubble sort without for loop. Basically you are considering the lastIndex of the array and slowly decrementing it until it first index of the array.
The algorithm will continue to move through the array like this until an entire pass is made without any swaps occurring.
The bubble is sort is basically Quadratic Time: O(n²) when it comes to performance.
class BubbleSort:
def __init__(self, arr):
self.arr = arr;
def bubbleSort(self):
count = 0;
lastIndex = len(self.arr) - 1;
while(count < lastIndex):
if(self.arr[count] > self.arr[count + 1]):
self.swap(count)
count = count + 1;
if(count == lastIndex):
count = 0;
lastIndex = lastIndex - 1;
def swap(self, count):
temp = self.arr[count];
self.arr[count] = self.arr[count + 1];
self.arr[count + 1] = temp;
arr = [9, 1, 5, 3, 8, 2]
p1 = BubbleSort(arr)
print(p1.bubbleSort())
def bubblesort(L,s):
if s >-1 :
bubblesort(L,s-1)
for i in range(len(L)-1-s):
if L[i]>L[i+1]:
temp = L[i+1]
L[i+1] = L[i]
L[i] = temp
return L
Nlist = [3,50,7,1,8,11,9,0,-1,5]
print(bubblesort(Nlist,len(Nlist)))
Answers provided by the-fury and Martin Cote fixed the problem of the infinite loop, but my code would still not work correctly (for a larger list, it would not sort correctly.). I ended up ditching the unsorted variable and used a counter instead.
def bubble(badList):
length = len(badList) - 1
n = 0
while n < len(badList):
for element in range(0,length):
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
n = 0
else:
n += 1
return badList
if __name__ == '__main__':
mylist = [90, 10, 2, 76, 17, 66, 57, 23, 57, 99]
print bubble(mylist)
If anyone could provide any pointers on how to improve my code in the comments, it would be much appreciated.
Try this
a = int(input("Enter Limit"))
val = []
for z in range(0,a):
b = int(input("Enter Number in List"))
val.append(b)
for y in range(0,len(val)):
for x in range(0,len(val)-1):
if val[x]>val[x+1]:
t = val[x]
val[x] = val[x+1]
val[x+1] = t
print(val)
idk if this might help you after 9 years...
its a simple bubble sort program
l=[1,6,3,7,5,9,8,2,4,10]
for i in range(1,len(l)):
for j in range (i+1,len(l)):
if l[i]>l[j]:
l[i],l[j]=l[j],l[i]
def merge_bubble(arr):
k = len(arr)
while k>2:
for i in range(0,k-1):
for j in range(0,k-1):
if arr[j] > arr[j+1]:
arr[j],arr[j+1] = arr[j+1],arr[j]
return arr
break
else:
if arr[0] > arr[1]:
arr[0],arr[1] = arr[1],arr[0]
return arr
def bubble_sort(l):
for i in range(len(l) -1):
for j in range(len(l)-i-1):
if l[j] > l[j+1]:
l[j],l[j+1] = l[j+1], l[j]
return l
def bubble_sorted(arr:list):
while True:
for i in range(0,len(arr)-1):
count = 0
if arr[i] > arr[i+1]:
count += 1
arr[i], arr[i+1] = arr[i+1], arr[i]
if count == 0:
break
return arr
arr = [30,20,80,40,50,10,60,70,90]
print(bubble_sorted(arr))
#[20, 30, 40, 50, 10, 60, 70, 80, 90]
def bubbleSort(a):
def swap(x, y):
temp = a[x]
a[x] = a[y]
a[y] = temp
#outer loop
for j in range(len(a)):
#slicing to the center, inner loop, python style
for i in range(j, len(a) - j):
#find the min index and swap
if a[i] < a[j]:
swap(j, i)
#find the max index and swap
if a[i] > a[len(a) - j - 1]:
swap(len(a) - j - 1, i)
return a
I am trying to write and optimized bubble sort, but my code does not actually sort right through the list. Any suggestions as to why it is stopping early?
#!/usr/bin/env python
from random import *
import time
def bubble(lst):
counter = 0
n = len(lst)
while n > 0:
temp = 0
for i in range(1, n - 1):
if lst[i] > lst[i + 1]:
lst[i], lst[i + 1] = lst[i + 1], lst[i] # swap
temp = i
counter += 1 # to compare the speed to the
# unoptimized bubble sort
n = temp
return counter
def main():
lst = range(10)
shuffle(lst)
print lst
start = time.time()
counter = bubble(lst)
print lst
end = time.time()
print counter
print "time", end - start
main()
This should fix it:
def bubble(lst):
counter = 0
n = len(lst)
while n > 0:
temp = 0
for i in range(0,n-1): # <- first element is at position 0
if lst[i] > lst[i+1]:
lst[i],lst[i+1] = lst[i+1],lst[i] #swap
temp = i+1 # <- the last swapped position
counter += 1
n = temp
return counter
In class we are doing sorting algorithms and, although I understand them fine when talking about them and writing pseudocode, I am having problems writing actual code for them.
This is my attempt in Python:
mylist = [12, 5, 13, 8, 9, 65]
def bubble(badList):
length = len(badList) - 1
unsorted = True
while unsorted:
for element in range(0,length):
unsorted = False
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
print badList
else:
unsorted = True
print bubble(mylist)
Now, this (as far as I can tell) sorts correctly, but once it finishes it just loops indefinitely.
How can this code be fixed so the function finishes properly and correctly sorts a list of any (reasonable) size?
P.S. I know I should not really have prints in a function and I should have a return, but I just have not done that yet as my code does not really work yet.
To explain why your script isn't working right now, I'll rename the variable unsorted to sorted.
At first, your list isn't yet sorted. Of course, we set sorted to False.
As soon as we start the while loop, we assume that the list is already sorted. The idea is this: as soon as we find two elements that are not in the right order, we set sorted back to False. sorted will remain True only if there were no elements in the wrong order.
sorted = False # We haven't started sorting yet
while not sorted:
sorted = True # Assume the list is now sorted
for element in range(0, length):
if badList[element] > badList[element + 1]:
sorted = False # We found two elements in the wrong order
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
# We went through the whole list. At this point, if there were no elements
# in the wrong order, sorted is still True. Otherwise, it's false, and the
# while loop executes again.
There are also minor little issues that would help the code be more efficient or readable.
In the for loop, you use the variable element. Technically, element is not an element; it's a number representing a list index. Also, it's quite long. In these cases, just use a temporary variable name, like i for "index".
for i in range(0, length):
The range command can also take just one argument (named stop). In that case, you get a list of all the integers from 0 to that argument.
for i in range(length):
The Python Style Guide recommends that variables be named in lowercase with underscores. This is a very minor nitpick for a little script like this; it's more to get you accustomed to what Python code most often resembles.
def bubble(bad_list):
To swap the values of two variables, write them as a tuple assignment. The right hand side gets evaluated as a tuple (say, (badList[i+1], badList[i]) is (3, 5)) and then gets assigned to the two variables on the left hand side ((badList[i], badList[i+1])).
bad_list[i], bad_list[i+1] = bad_list[i+1], bad_list[i]
Put it all together, and you get this:
my_list = [12, 5, 13, 8, 9, 65]
def bubble(bad_list):
length = len(bad_list) - 1
sorted = False
while not sorted:
sorted = True
for i in range(length):
if bad_list[i] > bad_list[i+1]:
sorted = False
bad_list[i], bad_list[i+1] = bad_list[i+1], bad_list[i]
bubble(my_list)
print my_list
(I removed your print statement too, by the way.)
The goal of bubble sort is to move the heavier items at the bottom in each round, while moving the lighter items up. In the inner loop, where you compare the elements, you don't have to iterate the whole list in each turn. The heaviest is already placed last. The swapped variable is an extra check so we can mark that the list is now sorted and avoid continuing with unnecessary calculations.
def bubble(badList):
length = len(badList)
for i in range(0,length):
swapped = False
for element in range(0, length-i-1):
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
swapped = True
if not swapped: break
return badList
Your version 1, corrected:
def bubble(badList):
length = len(badList) - 1
unsorted = True
while unsorted:
unsorted = False
for element in range(0,length):
#unsorted = False
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
unsorted = True
#print badList
#else:
#unsorted = True
return badList
This is what happens when you use variable name of negative meaning, you need to invert their values. The following would be easier to understand:
sorted = False
while not sorted:
...
On the other hand, the logic of the algorithm is a little bit off. You need to check whether two elements swapped during the for loop. Here's how I would write it:
def bubble(values):
length = len(values) - 1
sorted = False
while not sorted:
sorted = True
for element in range(0,length):
if values[element] > values[element + 1]:
hold = values[element + 1]
values[element + 1] = values[element]
values[element] = hold
sorted = False
return values
Your use of the Unsorted variable is wrong; you want to have a variable that tells you if you have swapped two elements; if you have done that, you can exit your loop, otherwise, you need to loop again. To fix what you've got here, just put the "unsorted = false" in the body of your if case; remove your else case; and put "unsorted = true before your for loop.
def bubble_sort(l):
for passes_left in range(len(l)-1, 0, -1):
for index in range(passes_left):
if l[index] < l[index + 1]:
l[index], l[index + 1] = l[index + 1], l[index]
return l
#A very simple function, can be optimized (obviously) by decreasing the problem space of the 2nd array. But same O(n^2) complexity.
def bubble(arr):
l = len(arr)
for a in range(l):
for b in range(l-1):
if (arr[a] < arr[b]):
arr[a], arr[b] = arr[b], arr[a]
return arr
You've got a couple of errors in there. The first is in length, and the second is in your use of unsorted (as stated by McWafflestix). You probably also want to return the list if you're going to print it:
mylist = [12, 5, 13, 8, 9, 65]
def bubble(badList):
length = len(badList) - 2
unsorted = True
while unsorted:
for element in range(0,length):
unsorted = False
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
print badList
unsorted = True
return badList
print bubble(mylist)
eta: You're right, the above is buggy as hell. My bad for not testing through some more examples.
def bubble2(badList):
swapped = True
length = len(badList) - 2
while swapped:
swapped = False
for i in range(0, length):
if badList[i] > badList[i + 1]:
# swap
hold = badList[i + 1]
badList[i + 1] = badList[i]
badList[i] = hold
swapped = True
return badList
I am a fresh fresh beginner, started to read about Python yesterday.
Inspired by your example I created something maybe more in the 80-ties style, but nevertheless it kinda works
lista1 = [12, 5, 13, 8, 9, 65]
i=0
while i < len(lista1)-1:
if lista1[i] > lista1[i+1]:
x = lista1[i]
lista1[i] = lista1[i+1]
lista1[i+1] = x
i=0
continue
else:
i+=1
print(lista1)
The problem with the original algorithm is that if you had a lower number further in the list, it would not bring it to the correct sorted position. The program needs to go back the the beginning each time to ensure that the numbers sort all the way through.
I simplified the code and it will now work for any list of numbers regardless of the list and even if there are repeating numbers. Here's the code
mylist = [9, 8, 5, 4, 12, 1, 7, 5, 2]
print mylist
def bubble(badList):
length = len(badList) - 1
element = 0
while element < length:
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
element = 0
print badList
else:
element = element + 1
print bubble(mylist)
def bubble_sort(l):
exchanged = True
iteration = 0
n = len(l)
while(exchanged):
iteration += 1
exchanged = False
# Move the largest element to the end of the list
for i in range(n-1):
if l[i] > l[i+1]:
exchanged = True
l[i], l[i+1] = l[i+1], l[i]
n -= 1 # Largest element already towards the end
print 'Iterations: %s' %(iteration)
return l
def bubbleSort(alist):
if len(alist) <= 1:
return alist
for i in range(0,len(alist)):
print "i is :%d",i
for j in range(0,i):
print "j is:%d",j
print "alist[i] is :%d, alist[j] is :%d"%(alist[i],alist[j])
if alist[i] > alist[j]:
alist[i],alist[j] = alist[j],alist[i]
return alist
alist = [54,26,93,17,77,31,44,55,20,-23,-34,16,11,11,11]
print bubbleSort(alist)
def bubble_sort(a):
t = 0
sorted = False # sorted = False because we have not began to sort
while not sorted:
sorted = True # Assume sorted = True first, it will switch only there is any change
for key in range(1,len(a)):
if a[key-1] > a[key]:
sorted = False
t = a[key-1]; a[key-1] = a[key]; a[key] = t;
print a
A simpler example:
a = len(alist)-1
while a > 0:
for b in range(0,a):
#compare with the adjacent element
if alist[b]>=alist[b+1]:
#swap both elements
alist[b], alist[b+1] = alist[b+1], alist[b]
a-=1
This simply takes the elements from 0 to a(basically, all the unsorted elements in that round) and compares it with its adjacent element, and making a swap if it is greater than its adjacent element. At the end the round, the last element is sorted, and the process runs again without it, until all elements have been sorted.
There is no need for a condition whether sort is true or not.
Note that this algorithm takes into consideration the position of the numbers only when swapping, so repeated numbers will not affect it.
PS. I know it has been very long since this question was posted, but I just wanted to share this idea.
def bubble_sort(li):
l = len(li)
tmp = None
sorted_l = sorted(li)
while (li != sorted_l):
for ele in range(0,l-1):
if li[ele] > li[ele+1]:
tmp = li[ele+1]
li[ele+1] = li [ele]
li[ele] = tmp
return li
def bubbleSort ( arr ):
swapped = True
length = len ( arr )
j = 0
while swapped:
swapped = False
j += 1
for i in range ( length - j ):
if arr [ i ] > arr [ i + 1 ]:
# swap
tmp = arr [ i ]
arr [ i ] = arr [ i + 1]
arr [ i + 1 ] = tmp
swapped = True
if __name__ == '__main__':
# test list
a = [ 67, 45, 39, -1, -5, -44 ];
print ( a )
bubbleSort ( a )
print ( a )
def bubblesort(array):
for i in range(len(array)-1):
for j in range(len(array)-1-i):
if array[j] > array[j+1]:
array[j], array[j+1] = array[j+1], array[j]
return(array)
print(bubblesort([3,1,6,2,5,4]))
arr = [5,4,3,1,6,8,10,9] # array not sorted
for i in range(len(arr)):
for j in range(i, len(arr)):
if(arr[i] > arr[j]):
arr[i], arr[j] = arr[j], arr[i]
print (arr)
I consider adding my solution because ever solution here is having
greater time
greater space complexity
or doing too much operations
then is should be
So, here is my solution:
def countInversions(arr):
count = 0
n = len(arr)
for i in range(n):
_count = count
for j in range(0, n - i - 1):
if arr[j] > arr[j + 1]:
count += 1
arr[j], arr[j + 1] = arr[j + 1], arr[j]
if _count == count:
break
return count
If anyone is interested in a shorter implementation using a list comprehension:
def bubble_sort(lst: list) -> None:
[swap_items(lst, i, i+1) for left in range(len(lst)-1, 0, -1) for i in range(left) if lst[i] > lst[i+1]]
def swap_items(lst: list, pos1: int, pos2: int) -> None:
lst[pos1], lst[pos2] = lst[pos2], lst[pos1]
Here is a different variation of bubble sort without for loop. Basically you are considering the lastIndex of the array and slowly decrementing it until it first index of the array.
The algorithm will continue to move through the array like this until an entire pass is made without any swaps occurring.
The bubble is sort is basically Quadratic Time: O(n²) when it comes to performance.
class BubbleSort:
def __init__(self, arr):
self.arr = arr;
def bubbleSort(self):
count = 0;
lastIndex = len(self.arr) - 1;
while(count < lastIndex):
if(self.arr[count] > self.arr[count + 1]):
self.swap(count)
count = count + 1;
if(count == lastIndex):
count = 0;
lastIndex = lastIndex - 1;
def swap(self, count):
temp = self.arr[count];
self.arr[count] = self.arr[count + 1];
self.arr[count + 1] = temp;
arr = [9, 1, 5, 3, 8, 2]
p1 = BubbleSort(arr)
print(p1.bubbleSort())
def bubblesort(L,s):
if s >-1 :
bubblesort(L,s-1)
for i in range(len(L)-1-s):
if L[i]>L[i+1]:
temp = L[i+1]
L[i+1] = L[i]
L[i] = temp
return L
Nlist = [3,50,7,1,8,11,9,0,-1,5]
print(bubblesort(Nlist,len(Nlist)))
Answers provided by the-fury and Martin Cote fixed the problem of the infinite loop, but my code would still not work correctly (for a larger list, it would not sort correctly.). I ended up ditching the unsorted variable and used a counter instead.
def bubble(badList):
length = len(badList) - 1
n = 0
while n < len(badList):
for element in range(0,length):
if badList[element] > badList[element + 1]:
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
n = 0
else:
n += 1
return badList
if __name__ == '__main__':
mylist = [90, 10, 2, 76, 17, 66, 57, 23, 57, 99]
print bubble(mylist)
If anyone could provide any pointers on how to improve my code in the comments, it would be much appreciated.
Try this
a = int(input("Enter Limit"))
val = []
for z in range(0,a):
b = int(input("Enter Number in List"))
val.append(b)
for y in range(0,len(val)):
for x in range(0,len(val)-1):
if val[x]>val[x+1]:
t = val[x]
val[x] = val[x+1]
val[x+1] = t
print(val)
idk if this might help you after 9 years...
its a simple bubble sort program
l=[1,6,3,7,5,9,8,2,4,10]
for i in range(1,len(l)):
for j in range (i+1,len(l)):
if l[i]>l[j]:
l[i],l[j]=l[j],l[i]
def merge_bubble(arr):
k = len(arr)
while k>2:
for i in range(0,k-1):
for j in range(0,k-1):
if arr[j] > arr[j+1]:
arr[j],arr[j+1] = arr[j+1],arr[j]
return arr
break
else:
if arr[0] > arr[1]:
arr[0],arr[1] = arr[1],arr[0]
return arr
def bubble_sort(l):
for i in range(len(l) -1):
for j in range(len(l)-i-1):
if l[j] > l[j+1]:
l[j],l[j+1] = l[j+1], l[j]
return l
def bubble_sorted(arr:list):
while True:
for i in range(0,len(arr)-1):
count = 0
if arr[i] > arr[i+1]:
count += 1
arr[i], arr[i+1] = arr[i+1], arr[i]
if count == 0:
break
return arr
arr = [30,20,80,40,50,10,60,70,90]
print(bubble_sorted(arr))
#[20, 30, 40, 50, 10, 60, 70, 80, 90]
def bubbleSort(a):
def swap(x, y):
temp = a[x]
a[x] = a[y]
a[y] = temp
#outer loop
for j in range(len(a)):
#slicing to the center, inner loop, python style
for i in range(j, len(a) - j):
#find the min index and swap
if a[i] < a[j]:
swap(j, i)
#find the max index and swap
if a[i] > a[len(a) - j - 1]:
swap(len(a) - j - 1, i)
return a