# Python list initialization (by ref problem)

I have some simple code that represents a graph using a square boolean matrix where rows/columns are nodes and true represents an undirected link between two nodes. I am initializing this matrix with False values and then setting the value to True where a link exists.

I believe the way I am initializing the list is causing a single bool instance to be referenced by each cell in a given row. The result is that if I set any cell to True all the other cells in that row also become True.

How should I be initializing my square matrix so that all values are false but none are shared by reference with other cells?

``````import sys

class Graph(object):
self.matrix = [[False] * nodeCount] * nodeCount
self.matrix[l[0]][l[1]] = True

def __str__(self):
s = "  "
for i in range(len(self.matrix)):
s += str(i) + " "
s += "\n"
for r in range(len(self.matrix)):
s += str(r) + " "
for c in range(len(self.matrix)):
s += str(self.matrix[c][r])[0] + " "
s += "\n"
return s

g = Graph(5, [(2,3)])
print g
``````

Also, on GIST

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Actually, you've slightly misunderstood the problem. You believe that the boolean references are shared (this is true, but not important-- booleans are immutable, so sharing references to the same object doesn't mean much). What's happened is that the list references are shared, and that's caused your troubles. Let me show you:

``````[[False] * nodeCount] * nodeCount
``````

What happens is that you get `nodeCount` references to a single list with `nodeCount` references to False. Multiplying a sequene by an integer gives you a sequence with duplicated references-- they're not copies, they're aliases.

``````>>> x = [False] * 3
>>> y = [x] * 3
>>> y[0] is y[1]
True
>>> y[0][0] = True
>>> y[1]
[True, False, False]
``````

So in this case, it means you can't change individual rows, because all the rows are the same list, and changing one row changes all.

to fix this, make new lists for each row:

``````[[False]*nodeCount for _ in xrange(nodeCount)]
``````

example:

``````>>> y = [[False]*3 for _ in xrange(3)]
>>> y[0] is y[1]
False
>>> y[0][0] = True
>>> y[1]
[False, False, False]
``````
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you are right, thanks for the detailed explanation –  spoon16 Jul 10 '10 at 6:47
``````self.matrix = [[False] * nodeCount] * nodeCount
``````

should be something like

``````self.matrix = [[False] * nodeCount for _ in  range(nodeCount)]
``````
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