Python "set" with duplicate/repeated elements

This depends on how you define a set. One may assume that to the OP

- order does not matter (whether ordered or unordered)
- replicates/repeated elements (a.k.a.
*multiplicites*) are permitted

Given these assumptions, the options reduce to two abstract types: a list or a multiset. In Python, these type usually translate to a `list`

and `Counter`

respectively. See the Details on some subtleties to observe.

**Given**

```
import random
import collections as ct
random.seed(123)
elems = [random.randint(1, 11) for _ in range(10)]
elems
# [1, 5, 2, 7, 5, 2, 1, 7, 9, 9]
```

**Code**

A list of replicate elements:

```
list(elems)
# [1, 5, 2, 7, 5, 2, 1, 7, 9, 9]
```

A "multiset" of replicate elements:

```
ct.Counter(elems)
# Counter({1: 2, 5: 2, 2: 2, 7: 2, 9: 2})
```

**Details**

*On Data Structures*

We have a mix of terms here that easily get confused. To clarify, here are some basic mathematical data structures compared to ones in Python.

```
Type |Abbr|Order|Replicates| Math* | Python | Implementation
------------|----|-----|----------|-----------|-------------|----------------
Set |Set | n | n | {2 3 1} | {2, 3, 1} | set(el)
Ordered Set |Oset| y | n | {1, 2, 3} | - | list(dict.fromkeys(el)
Multiset |Mset| n | y | [2 1 2] | - | <see `mset` below>
List |List| y | y | [1, 2, 2] | [1, 2, 2] | list(el)
```

From the table, one can deduce the definition of each type. Example: a *set* is a container that ignores order and rejects replicate elements. In contrast, a *list* is a container that preserves order and permits replicate elements.

Also from the table, we can see:

- Both an ordered set and a multiset are not explicitly implemented in Python
- "Order" is a contrary term to a random arrangement of elements, e.g. sorted or insertion order
- Sets and multisets are not strictly ordered. They
*can* be ordered, but order does not matter.
- Multisets permit replicates, thus they are not strict sets (the term "set" is indeed confusing).

*On Multisets*

Some may argue that `collections.Counter`

is a multiset. You are safe in many cases to treat it as such, but be aware that `Counter`

is simply a dict (a mapping) of key-*multiplicity* pairs. It is a map of multiplicities. See an example of elements in a flattened multiset:

```
mset = [x for k, v in ct.Counter(elems).items() for x in [k]*v]
mset
# [1, 1, 5, 5, 2, 2, 7, 7, 9, 9]
```

Notice there is some residual ordering, which may be surprising if you expect disordered results. However, disorder does not preclude order. Thus while you can generate a multiset from a `Counter`

, be aware of the following provisos on residual ordering in Python:

- replicates get grouped together in the mapping, introducing some degree of order
- in Python 3.6, dict's preserve insertion order

**Summary**

In Python, a multiset can be translated to a map of multiplicities, i.e. a `Counter`

, which is not randomly unordered like a pure set. There can be some residual ordering, which in most cases is ok since order does not generally matter in multisets.

**See Also**

^{*Mathematically, (according to N. Wildberger, we express braces {} to imply a set and brackets [] to imply a list, as seen in Python. Unlike Python, commas , to imply order. }

`set`

by definition. Can you demonstrate what you think you want, and maybe we can suggest an appropriate container or data type? – g.d.d.c Apr 16 '12 at 14:29`bag`

(a common term for`multiset`

) – modulitos Jul 30 '14 at 3:57