Just some notes on timing:

If you're starting with a list, `l.append(l.pop(0))`

is the fastest method you can use. This can be shown with time complexity alone:

- deque.rotate is
**O(k)** (k=number of elements)
- list to deque conversion is
**O(n)**
- list.append and list.pop are both
**O(1)**

So if you are starting with `deque`

objects, you can `deque.rotate()`

at the cost of O(k). But, if the starting point is a list, the time complexity of using `deque.rotate()`

is O(n). `l.append(l.pop(0)`

is faster at O(1).

Just for the sake of illustration, here are some sample timings on 1M iterations:

Methods which require type conversion:

`deque.rotate`

with deque object: **0.12380790710449219 seconds** (fastest)
`deque.rotate`

with type conversion: **6.853878974914551 seconds**
`np.roll`

with nparray: **6.0491721630096436 seconds**
`np.roll`

with type conversion: **27.558452129364014 seconds**

List methods mentioned here:

`l.append(l.pop(0))`

: **0.32483696937561035 seconds** (fastest)
- "
`shiftInPlace`

": **4.819645881652832 seconds**
- ...

Timing code used is below.

## collections.deque

Showing that creating deques from lists is O(n):

```
from collections import deque
import big_o
def create_deque_from_list(l):
return deque(l)
best, others = big_o.big_o(create_deque_from_list, lambda n: big_o.datagen.integers(n, -100, 100))
print best
# --> Linear: time = -2.6E-05 + 1.8E-08*n
```

If you need to create deque objects:

1M iterations @ 6.853878974914551 seconds

```
setup_deque_rotate_with_create_deque = """
from collections import deque
import random
l = [random.random() for i in range(1000)]
"""
test_deque_rotate_with_create_deque = """
dl = deque(l)
dl.rotate(-1)
"""
timeit.timeit(test_deque_rotate_with_create_deque, setup_deque_rotate_with_create_deque)
```

If you already have deque objects:

1M iterations @ 0.12380790710449219 seconds

```
setup_deque_rotate_alone = """
from collections import deque
import random
l = [random.random() for i in range(1000)]
dl = deque(l)
"""
test_deque_rotate_alone= """
dl.rotate(-1)
"""
timeit.timeit(test_deque_rotate_alone, setup_deque_rotate_alone)
```

## np.roll

If you need to create nparrays

1M iterations @ 27.558452129364014 seconds

```
setup_np_roll_with_create_npa = """
import numpy as np
import random
l = [random.random() for i in range(1000)]
"""
test_np_roll_with_create_npa = """
np.roll(l,-1) # implicit conversion of l to np.nparray
"""
```

If you already have nparrays:

1M iterations @ 6.0491721630096436 seconds

```
setup_np_roll_alone = """
import numpy as np
import random
l = [random.random() for i in range(1000)]
npa = np.array(l)
"""
test_roll_alone = """
np.roll(npa,-1)
"""
timeit.timeit(test_roll_alone, setup_np_roll_alone)
```

## "Shift in place"

Requires no type conversion

1M iterations @ 4.819645881652832 seconds

```
setup_shift_in_place="""
import random
l = [random.random() for i in range(1000)]
def shiftInPlace(l, n):
n = n % len(l)
head = l[:n]
l[:n] = []
l.extend(head)
return l
"""
test_shift_in_place="""
shiftInPlace(l,-1)
"""
timeit.timeit(test_shift_in_place, setup_shift_in_place)
```

## l.append(l.pop(0))

Requires no type conversion

1M iterations @ 0.32483696937561035

```
setup_append_pop="""
import random
l = [random.random() for i in range(1000)]
"""
test_append_pop="""
l.append(l.pop(0))
"""
timeit.timeit(test_append_pop, setup_append_pop)
```

`rotate`

is the right word, not`shift`

. – codeforester Nov 8 '18 at 23:03