Editing list of lists in python 3 [duplicate] - list
I created a list of lists:
>>> xs = [[1] * 4] * 3
>>> print(xs)
[[1, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]]
Then, I changed one of the innermost values:
>>> xs[0][0] = 5
>>> print(xs)
[[5, 1, 1, 1], [5, 1, 1, 1], [5, 1, 1, 1]]
Why did every first element of each sublist change to 5?
See also:
How do I clone a list so that it doesn't change unexpectedly after assignment? for workarounds for the problem
List of dictionary stores only last appended value in every iteration for an analogous problem with a list of dicts
How do I initialize a dictionary of empty lists in Python? for an analogous problem with a dict of lists
When you write [x]*3 you get, essentially, the list [x, x, x]. That is, a list with 3 references to the same x. When you then modify this single x it is visible via all three references to it:
x = [1] * 4
xs = [x] * 3
print(f"id(x): {id(x)}")
# id(x): 140560897920048
print(
f"id(xs[0]): {id(xs[0])}\n"
f"id(xs[1]): {id(xs[1])}\n"
f"id(xs[2]): {id(xs[2])}"
)
# id(xs[0]): 140560897920048
# id(xs[1]): 140560897920048
# id(xs[2]): 140560897920048
x[0] = 42
print(f"x: {x}")
# x: [42, 1, 1, 1]
print(f"xs: {xs}")
# xs: [[42, 1, 1, 1], [42, 1, 1, 1], [42, 1, 1, 1]]
To fix it, you need to make sure that you create a new list at each position. One way to do it is
[[1]*4 for _ in range(3)]
which will reevaluate [1]*4 each time instead of evaluating it once and making 3 references to 1 list.
You might wonder why * can't make independent objects the way the list comprehension does. That's because the multiplication operator * operates on objects, without seeing expressions. When you use * to multiply [[1] * 4] by 3, * only sees the 1-element list [[1] * 4] evaluates to, not the [[1] * 4 expression text. * has no idea how to make copies of that element, no idea how to reevaluate [[1] * 4], and no idea you even want copies, and in general, there might not even be a way to copy the element.
The only option * has is to make new references to the existing sublist instead of trying to make new sublists. Anything else would be inconsistent or require major redesigning of fundamental language design decisions.
In contrast, a list comprehension reevaluates the element expression on every iteration. [[1] * 4 for n in range(3)] reevaluates [1] * 4 every time for the same reason [x**2 for x in range(3)] reevaluates x**2 every time. Every evaluation of [1] * 4 generates a new list, so the list comprehension does what you wanted.
Incidentally, [1] * 4 also doesn't copy the elements of [1], but that doesn't matter, since integers are immutable. You can't do something like 1.value = 2 and turn a 1 into a 2.
size = 3
matrix_surprise = [[0] * size] * size
matrix = [[0]*size for _ in range(size)]
Live visualization using Python Tutor:
Actually, this is exactly what you would expect. Let's decompose what is happening here:
You write
lst = [[1] * 4] * 3
This is equivalent to:
lst1 = [1]*4
lst = [lst1]*3
This means lst is a list with 3 elements all pointing to lst1. This means the two following lines are equivalent:
lst[0][0] = 5
lst1[0] = 5
As lst[0] is nothing but lst1.
To obtain the desired behavior, you can use a list comprehension:
lst = [ [1]*4 for n in range(3) ]
In this case, the expression is re-evaluated for each n, leading to a different list.
[[1] * 4] * 3
or even:
[[1, 1, 1, 1]] * 3
Creates a list that references the internal [1,1,1,1] 3 times - not three copies of the inner list, so any time you modify the list (in any position), you'll see the change three times.
It's the same as this example:
>>> inner = [1,1,1,1]
>>> outer = [inner]*3
>>> outer
[[1, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]]
>>> inner[0] = 5
>>> outer
[[5, 1, 1, 1], [5, 1, 1, 1], [5, 1, 1, 1]]
where it's probably a little less surprising.
my_list = [[1]*4] * 3 creates one list object [1,1,1,1] in memory and copies its reference 3 times over. This is equivalent to obj = [1,1,1,1]; my_list = [obj]*3. Any modification to obj will be reflected at three places, wherever obj is referenced in the list.
The right statement would be:
my_list = [[1]*4 for _ in range(3)]
or
my_list = [[1 for __ in range(4)] for _ in range(3)]
Important thing to note here is that the * operator is mostly used to create a list of literals. Although 1 is immutable, obj = [1]*4 will still create a list of 1 repeated 4 times over to form [1,1,1,1]. But if any reference to an immutable object is made, the object is overwritten with a new one.
This means if we do obj[1] = 42, then obj will become [1,42,1,1] not [42,42,42,42] as some may assume. This can also be verified:
>>> my_list = [1]*4
>>> my_list
[1, 1, 1, 1]
>>> id(my_list[0])
4522139440
>>> id(my_list[1]) # Same as my_list[0]
4522139440
>>> my_list[1] = 42 # Since my_list[1] is immutable, this operation overwrites my_list[1] with a new object changing its id.
>>> my_list
[1, 42, 1, 1]
>>> id(my_list[0])
4522139440
>>> id(my_list[1]) # id changed
4522140752
>>> id(my_list[2]) # id still same as my_list[0], still referring to value `1`.
4522139440
Alongside the accepted answer that explained the problem correctly, instead of creating a list with duplicated elements using following code:
[[1]*4 for _ in range(3)]
Also, you can use itertools.repeat() to create an iterator object of repeated elements:
>>> a = list(repeat(1,4))
[1, 1, 1, 1]
>>> a[0] = 5
>>> a
[5, 1, 1, 1]
P.S. If you're using NumPy and you only want to create an array of ones or zeroes you can use np.ones and np.zeros and/or for other numbers use np.repeat:
>>> import numpy as np
>>> np.ones(4)
array([1., 1., 1., 1.])
>>> np.ones((4, 2))
array([[1., 1.],
[1., 1.],
[1., 1.],
[1., 1.]])
>>> np.zeros((4, 2))
array([[0., 0.],
[0., 0.],
[0., 0.],
[0., 0.]])
>>> np.repeat([7], 10)
array([7, 7, 7, 7, 7, 7, 7, 7, 7, 7])
Python containers contain references to other objects. See this example:
>>> a = []
>>> b = [a]
>>> b
[[]]
>>> a.append(1)
>>> b
[[1]]
In this b is a list that contains one item that is a reference to list a. The list a is mutable.
The multiplication of a list by an integer is equivalent to adding the list to itself multiple times (see common sequence operations). So continuing with the example:
>>> c = b + b
>>> c
[[1], [1]]
>>>
>>> a[0] = 2
>>> c
[[2], [2]]
We can see that the list c now contains two references to list a which is equivalent to c = b * 2.
Python FAQ also contains explanation of this behavior: How do I create a multidimensional list?
In simple words this is happening because in python everything works by reference, so when you create a list of list that way you basically end up with such problems.
To solve your issue you can do either one of them:
1. Use numpy array documentation for numpy.empty
2. Append the list as you get to a list.
3. You can also use dictionary if you want
Let's rewrite your code in the following way:
x = 1
y = [x]
z = y * 4
my_list = [z] * 3
Then having this, run the following code to make everything more clear. What the code does is basically print the ids of the obtained objects, which
Return[s] the “identity” of an object
and will help us identify them and analyse what happens:
print("my_list:")
for i, sub_list in enumerate(my_list):
print("\t[{}]: {}".format(i, id(sub_list)))
for j, elem in enumerate(sub_list):
print("\t\t[{}]: {}".format(j, id(elem)))
And you will get the following output:
x: 1
y: [1]
z: [1, 1, 1, 1]
my_list:
[0]: 4300763792
[0]: 4298171528
[1]: 4298171528
[2]: 4298171528
[3]: 4298171528
[1]: 4300763792
[0]: 4298171528
[1]: 4298171528
[2]: 4298171528
[3]: 4298171528
[2]: 4300763792
[0]: 4298171528
[1]: 4298171528
[2]: 4298171528
[3]: 4298171528
So now let's go step-by-step. You have x which is 1, and a single element list y containing x. Your first step is y * 4 which will get you a new list z, which is basically [x, x, x, x], i.e. it creates a new list which will have 4 elements, which are references to the initial x object. The next step is pretty similar. You basically do z * 3, which is [[x, x, x, x]] * 3 and returns [[x, x, x, x], [x, x, x, x], [x, x, x, x]], for the same reason as for the first step.
I am adding my answer to explain the same diagrammatically.
The way you created the 2D, creates a shallow list
arr = [[0]*cols]*row
Instead, if you want to update the elements of the list, you should use
rows, cols = (5, 5)
arr = [[0 for i in range(cols)] for j in range(rows)]
Explanation:
One can create a list using:
arr = [0]*N
or
arr = [0 for i in range(N)]
In the first case all the indices of the array point to the same integer object
and when you assign a value to a particular index, a new int object is created, for example arr[4] = 5 creates
Now let us see what happens when we create a list of list, in this case, all the elements of our top list will point to the same list
And if you update the value of any index a new int object will be created. But since all the top-level list indexes are pointing at the same list, all the rows will look the same. And you will get the feeling that updating an element is updating all the elements in that column.
Credits: Thanks to Pranav Devarakonda for the easy explanation here
Everyone is explaining what is happening. I'll suggest one way to solve it:
my_list = [[1 for i in range(4)] for j in range(3)]
my_list[0][0] = 5
print(my_list)
And then you get:
[[5, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]]
#spelchekr from Python list multiplication: [[...]]*3 makes 3 lists which mirror each other when modified and I had the same question about
"Why does only the outer *3 create more references while the inner one doesn't? Why isn't it all 1s?"
li = [0] * 3
print([id(v) for v in li]) # [140724141863728, 140724141863728, 140724141863728]
li[0] = 1
print([id(v) for v in li]) # [140724141863760, 140724141863728, 140724141863728]
print(id(0)) # 140724141863728
print(id(1)) # 140724141863760
print(li) # [1, 0, 0]
ma = [[0]*3] * 3 # mainly discuss inner & outer *3 here
print([id(li) for li in ma]) # [1987013355080, 1987013355080, 1987013355080]
ma[0][0] = 1
print([id(li) for li in ma]) # [1987013355080, 1987013355080, 1987013355080]
print(ma) # [[1, 0, 0], [1, 0, 0], [1, 0, 0]]
Here is my explanation after trying the code above:
The inner *3 also creates references, but its references are immutable, something like [&0, &0, &0], then when you change li[0], you can't change any underlying reference of const int 0, so you can just change the reference address into the new one &1;
while ma = [&li, &li, &li] and li is mutable, so when you call ma[0][0] = 1, ma[0][0] is equal to &li[0], so all the &li instances will change its 1st address into &1.
Trying to explain it more descriptively,
Operation 1:
x = [[0, 0], [0, 0]]
print(type(x)) # <class 'list'>
print(x) # [[0, 0], [0, 0]]
x[0][0] = 1
print(x) # [[1, 0], [0, 0]]
Operation 2:
y = [[0] * 2] * 2
print(type(y)) # <class 'list'>
print(y) # [[0, 0], [0, 0]]
y[0][0] = 1
print(y) # [[1, 0], [1, 0]]
Noticed why doesn't modifying the first element of the first list didn't modify the second element of each list? That's because [0] * 2 really is a list of two numbers, and a reference to 0 cannot be modified.
If you want to create clone copies, try Operation 3:
import copy
y = [0] * 2
print(y) # [0, 0]
y = [y, copy.deepcopy(y)]
print(y) # [[0, 0], [0, 0]]
y[0][0] = 1
print(y) # [[1, 0], [0, 0]]
another interesting way to create clone copies, Operation 4:
import copy
y = [0] * 2
print(y) # [0, 0]
y = [copy.deepcopy(y) for num in range(1,5)]
print(y) # [[0, 0], [0, 0], [0, 0], [0, 0]]
y[0][0] = 5
print(y) # [[5, 0], [0, 0], [0, 0], [0, 0]]
By using the inbuilt list function you can do like this
a
out:[[1, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]]
#Displaying the list
a.remove(a[0])
out:[[1, 1, 1, 1], [1, 1, 1, 1]]
# Removed the first element of the list in which you want altered number
a.append([5,1,1,1])
out:[[1, 1, 1, 1], [1, 1, 1, 1], [5, 1, 1, 1]]
# append the element in the list but the appended element as you can see is appended in last but you want that in starting
a.reverse()
out:[[5, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]]
#So at last reverse the whole list to get the desired list
I arrived here because I was looking to see how I could nest an arbitrary number of lists. There are a lot of explanations and specific examples above, but you can generalize N dimensional list of lists of lists of ... with the following recursive function:
import copy
def list_ndim(dim, el=None, init=None):
if init is None:
init = el
if len(dim)> 1:
return list_ndim(dim[0:-1], None, [copy.copy(init) for x in range(dim[-1])])
return [copy.deepcopy(init) for x in range(dim[0])]
You make your first call to the function like this:
dim = (3,5,2)
el = 1.0
l = list_ndim(dim, el)
where (3,5,2) is a tuple of the dimensions of the structure (similar to numpy shape argument), and 1.0 is the element you want the structure to be initialized with (works with None as well). Note that the init argument is only provided by the recursive call to carry forward the nested child lists
output of above:
[[[1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0]],
[[1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0]],
[[1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0]]]
set specific elements:
l[1][3][1] = 56
l[2][2][0] = 36.0+0.0j
l[0][1][0] = 'abc'
resulting output:
[[[1.0, 1.0], ['abc', 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0]],
[[1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 56.0], [1.0, 1.0]],
[[1.0, 1.0], [1.0, 1.0], [(36+0j), 1.0], [1.0, 1.0], [1.0, 1.0]]]
the non-typed nature of lists is demonstrated above
While the original question constructed the sublists with the multiplication operator, I'll add an example that uses the same list for the sublists. Adding this answer for completeness as this question is often used as a canonical for the issue
node_count = 4
colors = [0,1,2,3]
sol_dict = {node:colors for node in range(0,node_count)}
The list in each dictionary value is the same object, trying to change one of the dictionaries values will be seen in all.
>>> sol_dict
{0: [0, 1, 2, 3], 1: [0, 1, 2, 3], 2: [0, 1, 2, 3], 3: [0, 1, 2, 3]}
>>> [v is colors for v in sol_dict.values()]
[True, True, True, True]
>>> sol_dict[0].remove(1)
>>> sol_dict
{0: [0, 2, 3], 1: [0, 2, 3], 2: [0, 2, 3], 3: [0, 2, 3]}
The correct way to construct the dictionary would be to use a copy of the list for each value.
>>> colors = [0,1,2,3]
>>> sol_dict = {node:colors[:] for node in range(0,node_count)}
>>> sol_dict
{0: [0, 1, 2, 3], 1: [0, 1, 2, 3], 2: [0, 1, 2, 3], 3: [0, 1, 2, 3]}
>>> sol_dict[0].remove(1)
>>> sol_dict
{0: [0, 2, 3], 1: [0, 1, 2, 3], 2: [0, 1, 2, 3], 3: [0, 1, 2, 3]}
Note that items in the sequence are not copied; they are referenced multiple times. This often haunts new Python programmers; consider:
>>> lists = [[]] * 3
>>> lists
[[], [], []]
>>> lists[0].append(3)
>>> lists
[[3], [3], [3]]
What has happened is that [[]] is a one-element list containing an empty list, so all three elements of [[]] * 3 are references to this single empty list. Modifying any of the elements of lists modifies this single list.
Another example to explain this is using multi-dimensional arrays.
You probably tried to make a multidimensional array like this:
>>> A = [[None] * 2] * 3
This looks correct if you print it:
>>> A
[[None, None], [None, None], [None, None]]
But when you assign a value, it shows up in multiple places:
>>> A[0][0] = 5
>>> A
[[5, None], [5, None], [5, None]]
The reason is that replicating a list with * doesn’t create copies, it only creates references to the existing objects. The 3 creates a list containing 3 references to the same list of length two. Changes to one row will show in all rows, which is almost certainly not what you want.
Related
Python list append different lists in the same scope for the same variable
Okay. I write an algorithm for show me all the permutations of a list of integers. But during the algorithm I got a problem to append a permuted list to my result list. The code is the heap's algorithm. I got my finished permutation when size == 1. So a can append the permutated list V to my final list res. Here's the code: The function for permutate the list def permutations(V, size): global res if size == 1: print(V) res.append(V) for i in range(0, size): permutations(V, size-1) if size % 2 == 1: V[size-1], V[0] = V[0], V[size-1] else: V[i], V[size-1] = V[size-1], V[i] A = [1,2,3] res = [] permutation(A, len(A)) print(res) And this is the output: [1, 2, 3] [2, 1, 3] [3, 1, 2] [1, 3, 2] [2, 3, 1] [3, 2, 1] res: [[1, 2, 3], [1, 2, 3], [1, 2, 3], [1, 2, 3], [1, 2, 3], [1, 2, 3]] The printed permutations of V are all correct. But the list V append to my global res are not change. They are being append right after the print and the list append is different. If you change the lines like this: res.append(V) | | v D = [V[i] for i in range(len(V))] res.append(D) The results is correct on the final. Anyone can explain how can a printed list can be different from a appended list using the same variable.
Replace res.append(V) with res.append(list(V)) simply fixes your issue. All V you appended to the res are references to the same object. This can be observed by printing the id of each element in the list: for i in res: print(id(i))
Accessing Nested Lists that are part of an object (class) [duplicate]
I created a list of lists: >>> xs = [[1] * 4] * 3 >>> print(xs) [[1, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]] Then, I changed one of the innermost values: >>> xs[0][0] = 5 >>> print(xs) [[5, 1, 1, 1], [5, 1, 1, 1], [5, 1, 1, 1]] Why did every first element of each sublist change to 5? See also: How do I clone a list so that it doesn't change unexpectedly after assignment? for workarounds for the problem List of dictionary stores only last appended value in every iteration for an analogous problem with a list of dicts How do I initialize a dictionary of empty lists in Python? for an analogous problem with a dict of lists
When you write [x]*3 you get, essentially, the list [x, x, x]. That is, a list with 3 references to the same x. When you then modify this single x it is visible via all three references to it: x = [1] * 4 xs = [x] * 3 print(f"id(x): {id(x)}") # id(x): 140560897920048 print( f"id(xs[0]): {id(xs[0])}\n" f"id(xs[1]): {id(xs[1])}\n" f"id(xs[2]): {id(xs[2])}" ) # id(xs[0]): 140560897920048 # id(xs[1]): 140560897920048 # id(xs[2]): 140560897920048 x[0] = 42 print(f"x: {x}") # x: [42, 1, 1, 1] print(f"xs: {xs}") # xs: [[42, 1, 1, 1], [42, 1, 1, 1], [42, 1, 1, 1]] To fix it, you need to make sure that you create a new list at each position. One way to do it is [[1]*4 for _ in range(3)] which will reevaluate [1]*4 each time instead of evaluating it once and making 3 references to 1 list. You might wonder why * can't make independent objects the way the list comprehension does. That's because the multiplication operator * operates on objects, without seeing expressions. When you use * to multiply [[1] * 4] by 3, * only sees the 1-element list [[1] * 4] evaluates to, not the [[1] * 4 expression text. * has no idea how to make copies of that element, no idea how to reevaluate [[1] * 4], and no idea you even want copies, and in general, there might not even be a way to copy the element. The only option * has is to make new references to the existing sublist instead of trying to make new sublists. Anything else would be inconsistent or require major redesigning of fundamental language design decisions. In contrast, a list comprehension reevaluates the element expression on every iteration. [[1] * 4 for n in range(3)] reevaluates [1] * 4 every time for the same reason [x**2 for x in range(3)] reevaluates x**2 every time. Every evaluation of [1] * 4 generates a new list, so the list comprehension does what you wanted. Incidentally, [1] * 4 also doesn't copy the elements of [1], but that doesn't matter, since integers are immutable. You can't do something like 1.value = 2 and turn a 1 into a 2.
size = 3 matrix_surprise = [[0] * size] * size matrix = [[0]*size for _ in range(size)] Live visualization using Python Tutor:
Actually, this is exactly what you would expect. Let's decompose what is happening here: You write lst = [[1] * 4] * 3 This is equivalent to: lst1 = [1]*4 lst = [lst1]*3 This means lst is a list with 3 elements all pointing to lst1. This means the two following lines are equivalent: lst[0][0] = 5 lst1[0] = 5 As lst[0] is nothing but lst1. To obtain the desired behavior, you can use a list comprehension: lst = [ [1]*4 for n in range(3) ] In this case, the expression is re-evaluated for each n, leading to a different list.
[[1] * 4] * 3 or even: [[1, 1, 1, 1]] * 3 Creates a list that references the internal [1,1,1,1] 3 times - not three copies of the inner list, so any time you modify the list (in any position), you'll see the change three times. It's the same as this example: >>> inner = [1,1,1,1] >>> outer = [inner]*3 >>> outer [[1, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]] >>> inner[0] = 5 >>> outer [[5, 1, 1, 1], [5, 1, 1, 1], [5, 1, 1, 1]] where it's probably a little less surprising.
my_list = [[1]*4] * 3 creates one list object [1,1,1,1] in memory and copies its reference 3 times over. This is equivalent to obj = [1,1,1,1]; my_list = [obj]*3. Any modification to obj will be reflected at three places, wherever obj is referenced in the list. The right statement would be: my_list = [[1]*4 for _ in range(3)] or my_list = [[1 for __ in range(4)] for _ in range(3)] Important thing to note here is that the * operator is mostly used to create a list of literals. Although 1 is immutable, obj = [1]*4 will still create a list of 1 repeated 4 times over to form [1,1,1,1]. But if any reference to an immutable object is made, the object is overwritten with a new one. This means if we do obj[1] = 42, then obj will become [1,42,1,1] not [42,42,42,42] as some may assume. This can also be verified: >>> my_list = [1]*4 >>> my_list [1, 1, 1, 1] >>> id(my_list[0]) 4522139440 >>> id(my_list[1]) # Same as my_list[0] 4522139440 >>> my_list[1] = 42 # Since my_list[1] is immutable, this operation overwrites my_list[1] with a new object changing its id. >>> my_list [1, 42, 1, 1] >>> id(my_list[0]) 4522139440 >>> id(my_list[1]) # id changed 4522140752 >>> id(my_list[2]) # id still same as my_list[0], still referring to value `1`. 4522139440
Alongside the accepted answer that explained the problem correctly, instead of creating a list with duplicated elements using following code: [[1]*4 for _ in range(3)] Also, you can use itertools.repeat() to create an iterator object of repeated elements: >>> a = list(repeat(1,4)) [1, 1, 1, 1] >>> a[0] = 5 >>> a [5, 1, 1, 1] P.S. If you're using NumPy and you only want to create an array of ones or zeroes you can use np.ones and np.zeros and/or for other numbers use np.repeat: >>> import numpy as np >>> np.ones(4) array([1., 1., 1., 1.]) >>> np.ones((4, 2)) array([[1., 1.], [1., 1.], [1., 1.], [1., 1.]]) >>> np.zeros((4, 2)) array([[0., 0.], [0., 0.], [0., 0.], [0., 0.]]) >>> np.repeat([7], 10) array([7, 7, 7, 7, 7, 7, 7, 7, 7, 7])
Python containers contain references to other objects. See this example: >>> a = [] >>> b = [a] >>> b [[]] >>> a.append(1) >>> b [[1]] In this b is a list that contains one item that is a reference to list a. The list a is mutable. The multiplication of a list by an integer is equivalent to adding the list to itself multiple times (see common sequence operations). So continuing with the example: >>> c = b + b >>> c [[1], [1]] >>> >>> a[0] = 2 >>> c [[2], [2]] We can see that the list c now contains two references to list a which is equivalent to c = b * 2. Python FAQ also contains explanation of this behavior: How do I create a multidimensional list?
In simple words this is happening because in python everything works by reference, so when you create a list of list that way you basically end up with such problems. To solve your issue you can do either one of them: 1. Use numpy array documentation for numpy.empty 2. Append the list as you get to a list. 3. You can also use dictionary if you want
Let's rewrite your code in the following way: x = 1 y = [x] z = y * 4 my_list = [z] * 3 Then having this, run the following code to make everything more clear. What the code does is basically print the ids of the obtained objects, which Return[s] the “identity” of an object and will help us identify them and analyse what happens: print("my_list:") for i, sub_list in enumerate(my_list): print("\t[{}]: {}".format(i, id(sub_list))) for j, elem in enumerate(sub_list): print("\t\t[{}]: {}".format(j, id(elem))) And you will get the following output: x: 1 y: [1] z: [1, 1, 1, 1] my_list: [0]: 4300763792 [0]: 4298171528 [1]: 4298171528 [2]: 4298171528 [3]: 4298171528 [1]: 4300763792 [0]: 4298171528 [1]: 4298171528 [2]: 4298171528 [3]: 4298171528 [2]: 4300763792 [0]: 4298171528 [1]: 4298171528 [2]: 4298171528 [3]: 4298171528 So now let's go step-by-step. You have x which is 1, and a single element list y containing x. Your first step is y * 4 which will get you a new list z, which is basically [x, x, x, x], i.e. it creates a new list which will have 4 elements, which are references to the initial x object. The next step is pretty similar. You basically do z * 3, which is [[x, x, x, x]] * 3 and returns [[x, x, x, x], [x, x, x, x], [x, x, x, x]], for the same reason as for the first step.
I am adding my answer to explain the same diagrammatically. The way you created the 2D, creates a shallow list arr = [[0]*cols]*row Instead, if you want to update the elements of the list, you should use rows, cols = (5, 5) arr = [[0 for i in range(cols)] for j in range(rows)] Explanation: One can create a list using: arr = [0]*N or arr = [0 for i in range(N)] In the first case all the indices of the array point to the same integer object and when you assign a value to a particular index, a new int object is created, for example arr[4] = 5 creates Now let us see what happens when we create a list of list, in this case, all the elements of our top list will point to the same list And if you update the value of any index a new int object will be created. But since all the top-level list indexes are pointing at the same list, all the rows will look the same. And you will get the feeling that updating an element is updating all the elements in that column. Credits: Thanks to Pranav Devarakonda for the easy explanation here
Everyone is explaining what is happening. I'll suggest one way to solve it: my_list = [[1 for i in range(4)] for j in range(3)] my_list[0][0] = 5 print(my_list) And then you get: [[5, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]]
#spelchekr from Python list multiplication: [[...]]*3 makes 3 lists which mirror each other when modified and I had the same question about "Why does only the outer *3 create more references while the inner one doesn't? Why isn't it all 1s?" li = [0] * 3 print([id(v) for v in li]) # [140724141863728, 140724141863728, 140724141863728] li[0] = 1 print([id(v) for v in li]) # [140724141863760, 140724141863728, 140724141863728] print(id(0)) # 140724141863728 print(id(1)) # 140724141863760 print(li) # [1, 0, 0] ma = [[0]*3] * 3 # mainly discuss inner & outer *3 here print([id(li) for li in ma]) # [1987013355080, 1987013355080, 1987013355080] ma[0][0] = 1 print([id(li) for li in ma]) # [1987013355080, 1987013355080, 1987013355080] print(ma) # [[1, 0, 0], [1, 0, 0], [1, 0, 0]] Here is my explanation after trying the code above: The inner *3 also creates references, but its references are immutable, something like [&0, &0, &0], then when you change li[0], you can't change any underlying reference of const int 0, so you can just change the reference address into the new one &1; while ma = [&li, &li, &li] and li is mutable, so when you call ma[0][0] = 1, ma[0][0] is equal to &li[0], so all the &li instances will change its 1st address into &1.
Trying to explain it more descriptively, Operation 1: x = [[0, 0], [0, 0]] print(type(x)) # <class 'list'> print(x) # [[0, 0], [0, 0]] x[0][0] = 1 print(x) # [[1, 0], [0, 0]] Operation 2: y = [[0] * 2] * 2 print(type(y)) # <class 'list'> print(y) # [[0, 0], [0, 0]] y[0][0] = 1 print(y) # [[1, 0], [1, 0]] Noticed why doesn't modifying the first element of the first list didn't modify the second element of each list? That's because [0] * 2 really is a list of two numbers, and a reference to 0 cannot be modified. If you want to create clone copies, try Operation 3: import copy y = [0] * 2 print(y) # [0, 0] y = [y, copy.deepcopy(y)] print(y) # [[0, 0], [0, 0]] y[0][0] = 1 print(y) # [[1, 0], [0, 0]] another interesting way to create clone copies, Operation 4: import copy y = [0] * 2 print(y) # [0, 0] y = [copy.deepcopy(y) for num in range(1,5)] print(y) # [[0, 0], [0, 0], [0, 0], [0, 0]] y[0][0] = 5 print(y) # [[5, 0], [0, 0], [0, 0], [0, 0]]
By using the inbuilt list function you can do like this a out:[[1, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]] #Displaying the list a.remove(a[0]) out:[[1, 1, 1, 1], [1, 1, 1, 1]] # Removed the first element of the list in which you want altered number a.append([5,1,1,1]) out:[[1, 1, 1, 1], [1, 1, 1, 1], [5, 1, 1, 1]] # append the element in the list but the appended element as you can see is appended in last but you want that in starting a.reverse() out:[[5, 1, 1, 1], [1, 1, 1, 1], [1, 1, 1, 1]] #So at last reverse the whole list to get the desired list
I arrived here because I was looking to see how I could nest an arbitrary number of lists. There are a lot of explanations and specific examples above, but you can generalize N dimensional list of lists of lists of ... with the following recursive function: import copy def list_ndim(dim, el=None, init=None): if init is None: init = el if len(dim)> 1: return list_ndim(dim[0:-1], None, [copy.copy(init) for x in range(dim[-1])]) return [copy.deepcopy(init) for x in range(dim[0])] You make your first call to the function like this: dim = (3,5,2) el = 1.0 l = list_ndim(dim, el) where (3,5,2) is a tuple of the dimensions of the structure (similar to numpy shape argument), and 1.0 is the element you want the structure to be initialized with (works with None as well). Note that the init argument is only provided by the recursive call to carry forward the nested child lists output of above: [[[1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0]], [[1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0]], [[1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0]]] set specific elements: l[1][3][1] = 56 l[2][2][0] = 36.0+0.0j l[0][1][0] = 'abc' resulting output: [[[1.0, 1.0], ['abc', 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 1.0]], [[1.0, 1.0], [1.0, 1.0], [1.0, 1.0], [1.0, 56.0], [1.0, 1.0]], [[1.0, 1.0], [1.0, 1.0], [(36+0j), 1.0], [1.0, 1.0], [1.0, 1.0]]] the non-typed nature of lists is demonstrated above
While the original question constructed the sublists with the multiplication operator, I'll add an example that uses the same list for the sublists. Adding this answer for completeness as this question is often used as a canonical for the issue node_count = 4 colors = [0,1,2,3] sol_dict = {node:colors for node in range(0,node_count)} The list in each dictionary value is the same object, trying to change one of the dictionaries values will be seen in all. >>> sol_dict {0: [0, 1, 2, 3], 1: [0, 1, 2, 3], 2: [0, 1, 2, 3], 3: [0, 1, 2, 3]} >>> [v is colors for v in sol_dict.values()] [True, True, True, True] >>> sol_dict[0].remove(1) >>> sol_dict {0: [0, 2, 3], 1: [0, 2, 3], 2: [0, 2, 3], 3: [0, 2, 3]} The correct way to construct the dictionary would be to use a copy of the list for each value. >>> colors = [0,1,2,3] >>> sol_dict = {node:colors[:] for node in range(0,node_count)} >>> sol_dict {0: [0, 1, 2, 3], 1: [0, 1, 2, 3], 2: [0, 1, 2, 3], 3: [0, 1, 2, 3]} >>> sol_dict[0].remove(1) >>> sol_dict {0: [0, 2, 3], 1: [0, 1, 2, 3], 2: [0, 1, 2, 3], 3: [0, 1, 2, 3]}
Note that items in the sequence are not copied; they are referenced multiple times. This often haunts new Python programmers; consider: >>> lists = [[]] * 3 >>> lists [[], [], []] >>> lists[0].append(3) >>> lists [[3], [3], [3]] What has happened is that [[]] is a one-element list containing an empty list, so all three elements of [[]] * 3 are references to this single empty list. Modifying any of the elements of lists modifies this single list. Another example to explain this is using multi-dimensional arrays. You probably tried to make a multidimensional array like this: >>> A = [[None] * 2] * 3 This looks correct if you print it: >>> A [[None, None], [None, None], [None, None]] But when you assign a value, it shows up in multiple places: >>> A[0][0] = 5 >>> A [[5, None], [5, None], [5, None]] The reason is that replicating a list with * doesn’t create copies, it only creates references to the existing objects. The 3 creates a list containing 3 references to the same list of length two. Changes to one row will show in all rows, which is almost certainly not what you want.
Python - get repeat matches in two lists
I am trying to match two lists, but I want to pick up the repeat matches too. I can't use set because that would only give me {3} in my second example below. a = [1,2,3,4] b = [3,3,4,5] return [3,4] a = [1,2,3,3] b = [3,3,4,5] return [3,3]
You can use list comprehesion to check and return every item in a if it exists in b like below: [item for item in a if item in b] If you want only the elements that are in both a and b (to cover the cases mentioned by #kabanus in the comment), you can use the following: [item for item in set(a) for i in range(min(a.count(item), b.count(item)))] Output: >>> a = [1, 2, 3, 4] >>> b = [3, 3, 4, 5] >>> [item for item in set(a) for i in range(min(a.count(item), b.count(item)))] [3, 4] >>> >>> a = [1, 2, 3, 3] >>> b = [3, 3, 4, 5] >>> [item for item in set(a) for i in range(min(a.count(item), b.count(item)))] [3, 3] >>> >>> a = [3, 3, 4] >>> b = [4, 4, 3] >>> [item for item in set(a) for i in range(min(a.count(item), b.count(item)))] [3, 4]
Try something like (if order doesn't matter), Python 2: from collections import Counter a = [1,2,3,4] b = [3,3,4,5] ca=Counter(a) cb=Counter(b) print sum([[x]*min(ca[x],cb[x]) for x in set(a)],[]) This should return the list of all repeating matches the number of time they repeat, with no particular ordering beyond grouping together same elements. The output for the above example is: [3,4] I'm assuming you missed 4. The other example you have yields what you posted: [3,3]
python3.2)append two element in a list(lists in a list)
If I have an input like this (1, 2, 3, 4, 5, 6) The output has to be ... [[1, 2], [3, 4], [5, 6]]. I know how to deal with if it's one element but not two. x=[] for number in numbers: x.append([number]) I'll appreciate your any help!
Something like this would work: out = [] lst = (1,2,3,4,5,6,7,8,9,10) for x in range(len(lst)): if x % 2 == 0: out.append([lst[x], lst[x+1]]) else: continue To use this, just set lst equal to whatever list of numbers you want. The final product is stored in out.
There is a shorter way of doing what you want: result = [] L = (1,2,3,4,5,6,7,8,9,10) result = [[L[i], L[i + 1]] for i in range(0, len(L) - 1, 2)] print(result)
You can use something like this. This solution also works for list of odd length def func(lst): res = [] # Go through every 2nd value | 0, 2, 4, ... for i in range(0, len(lst), 2): # Append a slice of the list, + 2 to include the next value res.append(lst[i : i + 2]) return res # Output >>> lst = [1, 2, 3, 4, 5, 6] >>> func(lst) [[1, 2], [3, 4], [5, 6]] >>> lst2 = [1, 2, 3, 4, 5, 6, 7] >>> func(lst2) [[1, 2], [3, 4], [5, 6], [7]] List comprehension solution def func(lst): return [lst[i:i+2] for i in range(0, len(lst), 2)] Slicing is better in this case as you don't have to account for IndexError allowing it to work for odd length as well. If you want you can also add another parameter to let you specify the desired number of inner elements. def func(lst, size = 2): # default of 2 it none specified return [lst[i:i+size] for i in range(0, len(lst), size)]
There's a few hurdles in this problem. You want to iterate through the list without going past the end of the list and you need to deal with the case that list has an odd length. Here's one solution that works: def foo(lst): result = [[x,y] for [x,y] in zip(lst[0::2], lst[1::2])] return result In case this seems convoluted, let's break the code down. Index slicing: lst[0::2] iterates through lst by starting at the 0th element and proceeds in increments of 2. Similarly lst[1::2] iterates through starting at the 1st element (colloquially the second element) and continues in increments of 2. Example: >>> lst = (1,2,3,4,5,6,7) >>> print(lst[0::2]) (1,3,5,7) >>> print(lst[1::2]) (2,4,6) zip: zip() takes two lists (or any iterable object for that matter) and returns a list containing tuples. Example: >>> lst1 = (10,20,30, 40) >>> lst2 = (15,25,35) >>> prit(zip(lst1, lst2)) [(10,15), (20,25), (30,35)] Notice that zip(lst1, lst2) has the nice property that if one of it's arguments is longer than the other, zip() stops zipping whenever the shortest iterable is out of items. List comprehension: python allows iteration quite generally. Consider the statement: >>> [[x,y] for [x,y] in zip(lst1,lst2)] The interior bit "for [x,y] in zip(lst1,lst2)" says "iterate through all pairs of values in zip, and give their values to x and y". In the rest of the statement "[[x,y] for [x,y] ...]", it says "for each set of values x and y takes on, make a list [x,y] to be stored in a larger list". Once this statement executes, you have a list of lists, where the interior lists are all possible pairs for zip(lst1,lst2)
Very Clear solution: l = (1, 2, 3, 4, 5, 6) l = iter(l) w = [] for i in l: sub = [] sub.append(i) sub.append(next(l)) w.append(sub) print w
Modifying copy of list, modifies original
I thought I understood how Python handles copies of mutables, but I came upon the following behavior. x = [i for i in xrange(5)] mylist = [x, x] mylist_copy = mylist[:] mylist_copy[0].pop() mylist Out : [[0, 1, 2, 3], [0, 1, 2, 3]] So it seems mylist was changed despite changes being made only to mylist_copy. How can I create a pure copy of mylist so that this does not occur?
While you're indeed making a copy, it is a shallow copy: mylist_copy contains references to the original x. To make a deep copy, use copy.deepcopy().
This happens not because of any copying errors when making mylist_copy, but because mylist is made up of two of the same elements. mylist = [x,x] adds two references to the same object (`x`). As a result, mylist[0].pop() will have the same outcome: In [70]: x = [i for i in range(5)] In [71]: mylist = [x,x] In [72]: mylist Out[72]: [[0, 1, 2, 3, 4], [0, 1, 2, 3, 4]] In [73]: mylist[0].pop() Out[73]: 4 In [74]: mylist Out[74]: [[0, 1, 2, 3], [0, 1, 2, 3]] Here's one way to circumvent this issue: In [80]: x = [i for i in range(5)] In [81]: mylist = [x, x[:]] In [82]: mylist_copy = mylist[:] In [83]: mylist_copy[0].pop() Out[83]: 4 In [84]: mylist Out[84]: [[0, 1, 2, 3], [0, 1, 2, 3, 4]]