**Update**: The `more_itertools`

library has released `more_itertool.replace`

, a tool that solves this particular problem (see Option 3).

First, here are some other options that work on generic iterables (lists, strings, iterators, etc.):

**Code**

*Option 1 - without libraries*:

```
def remove(iterable, subsequence):
"""Yield non-subsequence items; sans libraries."""
seq = tuple(iterable)
subsequence = tuple(subsequence)
n = len(subsequence)
skip = 0
for i, x in enumerate(seq):
slice_ = seq[i:i+n]
if not skip and (slice_ == subsequence):
skip = n
if skip:
skip -= 1
continue
yield x
```

*Option 2 - with *`more_itertools`

```
import more_itertools as mit
def remove(iterable, subsequence):
"""Yield non-subsequence items."""
iterable = tuple(iterable)
subsequence = tuple(subsequence)
n = len(subsequence)
indices = set(mit.locate(mit.windowed(iterable, n), pred=lambda x: x == subsequence))
it_ = enumerate(iterable)
for i, x in it_:
if i in indices:
mit.consume(it_, n-1)
else:
yield x
```

**Demo**

```
list(remove(big_list, sub_list))
# [2, 3, 4]
list(remove([1, 2, 1, 2], sub_list))
# []
list(remove([1, "a", int, 3, float, "a", int, 5], ["a", int]))
# [1, 3, float, 5]
list(remove("11111", "111"))
# ['1', '1']
list(remove(iter("11111"), iter("111")))
# ['1', '1']
```

*Option 3 - with *`more_itertools.replace`

:

**Demo**

```
pred = lambda *args: args == tuple(sub_list)
list(mit.replace(big_list, pred=pred, substitutes=[], window_size=2))
# [2, 3, 4]
pred=lambda *args: args == tuple(sub_list)
list(mit.replace([1, 2, 1, 2], pred=pred, substitutes=[], window_size=2))
# []
pred=lambda *args: args == tuple(["a", int])
list(mit.replace([1, "a", int, 3, float, "a", int, 5], pred=pred, substitutes=[], window_size=2))
# [1, 3, float, 5]
pred=lambda *args: args == tuple("111")
list(mit.replace("11111", pred=pred, substitutes=[], window_size=3))
# ['1', '1']
pred=lambda *args: args == tuple(iter("111"))
list(mit.replace(iter("11111"), pred=pred, substitutes=[], window_size=3))
# ['1', '1']
```

**Details**

In all of these examples, we are scanning the main sequence with smaller window slices. We yield whatever is not found in the slice and skip whatever is in the slice.

*Option 1 - without libraries*

Iterate an enumerated sequence and evaluate slices of size `n`

(the length of the sub-sequence). If the upcoming slice equals the sub-sequence, reset `skip`

and yield the item. Otherwise, iterate past it. `skip`

tracks how many times to advance the loop, e.g. `sublist`

is of size `n=2`

, so it skips twice per match.

Note, you can convert this option to work with sequences alone by removing the first two tuple assignments and replacing the `iterable`

parameter with `seq`

, e.g. `def remove(seq, subsequence):`

.

*Option 2 - with *`more_itertools`

Indices are located for every matching sub-sequence in an iterable. While iterating an enumerated iterator, if an index is found in `indices`

, the remaining sub-sequence is skipped by consuming the next `n-1`

elements from the iterator. Otherwise, an item is yielded.

Install this library via `> pip install more_itertools`

.

*Option 3 - with *`more_itertools.replace`

:

This tool replaces a sub-sequence of items defined in a predicate with substitute values. To remove items, we substitute an empty container, e.g. `substitutes=[]`

. The length of replaced items is specified by the `window_size`

parameter (this value is equal to the length of the sub-sequence).

`big_list = [1, 2, 1, 2, 1]`

and`sub_list = [1, 2, 1]`

do you want the result to be`[2, 1]`

or`[]`

(i.e. remove per occurrence or remove all items that match the`sub_list`

pattern)?14more comments