An efficient version of @jpp's solution is as follows:

```
from itertools import combinations
lstA = ['Harry Potter','1984','50 Shades','Dracula']
lstB = ['50 Shades','Dracula','1984','Harry Potter']
bIndices = {b: i for i, b in enumerate(lstB)}
aPairs = [sorted(c) for c in combinations(enumerate(lstA), 2)]
mismatches = [(book1[1], book2[1]) for book1, book2 in aPairs if bIndices[book1[1]] > bIndices[book2[1]]]
print(mismatches)
# [('Harry Potter', '1984'), ('Harry Potter', '50 Shades'), ('Harry Potter', 'Dracula'), ('1984', '50 Shades'), ('1984', 'Dracula')]
```

Note that `aPairs`

are combinations of (index, book) tuples and each combination is sorted by the index which guarantees that in each pair of books, the first is "better" than the next (for user A).

Now to compute ordering mismatches, we just need to decide whether the corresponding book indices in `lstB`

also preserve this ordering.

### Edit

As @MadPhysicist noted, `combinations`

preserves the original order in the array in each generated tuple, so no need to create `aPairs`

as a list of sorted `(index, book)`

tuples. We can directly generate `mismatches`

with just `bIndices`

:

```
lstA = ['Harry Potter','1984','50 Shades','Dracula']
lstB = ['50 Shades','Dracula','1984','Harry Potter']
bIndices = {b: i for i, b in enumerate(lstB)}
mismatches = [(book1, book2) for book1, book2 in combinations(lstA, 2) if bIndices[book1] > bIndices[book2]]
```