From the python docs, "set.pop() remove and return an arbitrary element from s". While generating some random data to test a program, I noticed strange behavior of this pop() function. Here is my code (python 2.7.3):

```
testCases = 10
numberRange = 500
poppedValues = []
greaterPercentages = []
for i in range (testCases):
s = Set()
""" inserting 100 random values in the set, in the range [0, numberRange) """
for j in range (100):
s.add(random.randrange(numberRange))
poppedValue = s.pop()
greaterCount = 0
""" counting how many numbers in the set are smaller then the popped value """
for number in s:
if poppedValue > number:
greaterCount += 1
poppedValues.append(poppedValue)
greaterPercentages.append(float(greaterCount) / len(s) * 100)
for poppedValue in poppedValues:
print poppedValue, '\t',
print
for percentage in greaterPercentages:
print "{:2.2f}".format(percentage), '\t',
```

What I'm doing here is,

- Inserting some random values in the set
`s`

where each element is in the range [0,`numberRange`

) - Pop an element from the set (according to the docs, it should be a random one)
- Counting how many elements in the set are smaller then the popped value

I expected that the popped value should be a random one and about 50% of the numbers in the set will be greater then the popped value. But seems that `pop()`

almost always returns the lowest number in the set. Here are the result for `numberRange = 500`

. First row denotes the values of the popped element. Second row is the percentage of elements which are smaller then the popped value.

```
9 0 3 1 409 0 1 2 4 0
0 % 0 % 0 % 0 % 87 % 0 % 0 % 0 % 0 % 0 %
```

I've conducted this test with different values of `numberRange`

. It seems that for lower values of the set elements, `pop()`

almost always returns the lowest element. But for higher values it returns a random element. For `numberRange = 1000`

, the result is:

```
518 3586 3594 4103 2560 3087 4095 3079 3076 1622
7 % 72 % 73 % 84 % 54 % 51 % 79 % 63 % 67 % 32 %
```

which I think is pretty random. Why this strange behavior? Am I doing something wrong?

**EDIT**: Thanks for everyone's answer and comment, seems that by "arbitrarily", it isn't guaranteed that it will be "random".

`random.choice(s)`

doesn't work for sets. Furthermore`random.choice`

is downright BROKEN for dicts, see here for more details about that. – wim Jan 9 '14 at 11:04`random`

documentation and doesn't understand that Python/C++ jargon word "sequence", it is not obvious that a`set`

or`dict`

isn't one. I don't feel strongly about the fact that terms like "sequence", "iterable", "iterator" are assumed vocabulary in various parts of the Python documentation, but no doubt it catches most people out at least once. Separately it would be nice if`random.choice`

worked on an arbitrary iterable (in`O(n)`

time and`O(1)`

memory) and on sets and dicts in whatever time complexity is feasible. – Steve Jessop Jan 10 '14 at 22:197more comments