A single star `*`

unpacks a sequence or collection into positional arguments. Suppose we have

```
def add(a, b):
return a + b
values = (1, 2)
```

Using the `*`

unpacking operator, we can write `s = add(*values)`

, which will be equivalent to writing `s = add(1, 2)`

.

The double star `**`

does the same thing for a dictionary, providing values for named arguments:

```
values = { 'a': 1, 'b': 2 }
s = add(**values) # equivalent to add(a=1, b=2)
```

Both operators can be used for the same function call. For example, given:

```
def sum(a, b, c, d):
return a + b + c + d
values1 = (1, 2)
values2 = { 'c': 10, 'd': 15 }
```

then `s = add(*values1, **values2)`

is equivalent to `s = sum(1, 2, c=10, d=15)`

.

See also the relevant section of the tutorial in the Python documentation.

Similarly, `*`

and `**`

can be used for parameters. Using `*`

allows a function to accept any number of positional arguments, which will be collected into a single parameter:

```
def add(*values):
s = 0
for v in values:
s = s + v
return s
```

Now when the function is called like `s = add(1, 2, 3, 4, 5)`

, `values`

will be the tuple `(1, 2, 3, 4, 5)`

(which, of course, produces the result `15`

).

Similarly, a parameter marked with `**`

will receive a `dict`

:

```
def get_a(**values):
return values['a']
s = get_a(a=1, b=2) # returns 1
```

this allows for specifying a large number of optional parameters without having to declare them.

Again, both can be combined:

```
def add(*values, **options):
s = 0
for i in values:
s = s + i
if "neg" in options:
if options["neg"]:
s = -s
return s
s = add(1, 2, 3, 4, 5) # returns 15
s = add(1, 2, 3, 4, 5, neg=True) # returns -15
s = add(1, 2, 3, 4, 5, neg=False) # returns 15
```

isa`*`

and`**`

operator that have nothing to do with this syntax.`[*a, b, *c]`

or`{**d1, **d2}`

), you'll want to read asterisk in tuple, list and set definitions, double asterisk in dict definition, which is specific to the useoutsideof function calls and function definitions. For the earlier PEP 3132, see Multiple Unpacking Assignment in Python when you don't know the sequence length.