# finding sublist in lists with map/select in mathematica

I have, in Wolfram Mathematica 8.0, a nested list like

`nList = {{a,b},{f,g},{n,o}}`

and a normal list like

`lList = {a,b,c,k,m,n,o,z}`

and i want to check if all the sublists in nList are in lList (in the example a,b and n,o are there but not f,g)

I've done it using `For[,,,]` and using index... can someone enlighten me in using functions like Map/Thread/Select to do it in one pass.

Edit: If `nList` contains `a,b`, `lList` must contain `a,b` and not `a,c,b` or `b,a` or `b,c,a`

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Edit: If nList contains a,b lList must contain a,b and not a,c,b or b,a or b,c,a ... –  Ferlo Jun 1 '11 at 13:42
Are the sublists always the same length as each other? –  Mr.Wizard Jun 1 '11 at 14:38

Assuming that you don't care about element ordering, here is one way:

``````In[20]:= Complement[Flatten[nList],lList] ==={}

Out[20]= False
``````

EDIT

If the order matters, then here is one way:

``````In[29]:= And@@(MatchQ[lList,{___,PatternSequence[##],___}]&@@@nList)

Out[29]= False
``````

For large number of sub-lists, this may be faster:

``````In[34]:=
Union[ReplaceList[lList,
{___,x:Alternatives@@(PatternSequence@@@nList),___}:>{x}]]===Union[nList]

Out[34]= False
``````

This works as follows: ReplaceList is a very nice but often ignored command which returns a list of all possible expressions which could be obtained with the pattern-matcher trying to apply the rules in all possible ways to an expression. This is in contrast with the way the pattern-matcher usually works, where it stops upon the first successful match. The PatternSequence is a relatively new addition to the Mathematica pattern language, which allows us to give an identity to a given sequence of expression, treating it as a pattern. This allowed us to construct the alternative pattern, so the resulting pattern is saying: the sequence of any sublist in any place in the main list is collected and put back to list braces, forming back the sublist. We get as many newly formed sublists as there are sequences of the original sublists in the larger list. If all sublists are present, then `Union` on the resulting list should be the same as `Union` of the original sublist list.

Here are the benchmarks (I took a list of integers, and overlapping sublists generated by `Partition`):

``````In[39]:= tst = Range[1000];

In[41]:= sub = Partition[tst, 2, 1];

In[43]:=
And @@ (MatchQ[tst, {___, PatternSequence[##], ___}] & @@@ sub) // Timing

Out[43]= {3.094, True}

In[45]:=
Union[ReplaceList[tst, {___,x : Alternatives @@ (PatternSequence @@@ sub), ___}
:> {x}]] ===  Union[sub] // Timing

Out[45]= {0.11, True}
``````

Conceptually, the reason why the second method is faster is that it does its work in the single run through the list (performed internally by `ReplaceList`), while the first solution explicitly iterates through the big list for each sub-list.

EDIT 2 - Performance

If performance is really an issue, then the following code is yet much faster:

``````And @@ (With[{part = Partition[lList, Length[#[[1]]], 1]},
Complement[#, part] === {}] & /@SplitBy[SortBy[nList, Length], Length])
``````

For example, on our benchmarks:

``````In[54]:= And@@(With[{part = Partition[tst,Length[#[[1]]],1]},
Complement[#,part]==={}]&/@SplitBy[SortBy[sub,Length],Length])//Timing

Out[54]= {0.,True}
``````

EDIT 3

Per suggestion of @Mr.Wizard, the following performance improvement can be made:

``````Scan[
If[With[{part = Partition[lList, Length[#[[1]]], 1]},
Complement[#, part] =!= {}], Return[False]] &,
SplitBy[SortBy[nList, Length], Length]
] === Null
``````

Here, the as soon as we get a negative answer from sub-lists of a given length, sublists of other lengths will not be checked, since we already know that the answer is negative (`False`). If `Scan` completes without `Return`, it will return `Null`, which will mean that `lList` contains all of the sublists in `nList`.

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that means that if nList contains a,b or b,a and lList contains both a and b in whatever order it'll always work? Then i need something more specific if nList contains a,b lList must contain a,b and not a,c,b or b,a or b,c,a ... –  Ferlo Jun 1 '11 at 13:41
Yes. But if you want to check that `lList` literally contains the sequence `a,b` in that order, and with no elements in between, like in `{c,d,a,b,e}`, then you need some more work. Is that the case? –  Leonid Shifrin Jun 1 '11 at 13:43
Please see my edit, there is a solution there that takes order into account –  Leonid Shifrin Jun 1 '11 at 13:51
Nice, altough i don't understand quite well the one for large numbers of sublists ... You use ReplaceList on the main list with all the possible expression derived from nList? –  Ferlo Jun 1 '11 at 14:14
By the way, if you want to be really fast, and handle sublists of different lengths, shouldn't you check `True` between length passes, rather than after all are done? –  Mr.Wizard Jun 1 '11 at 15:16

You could use pattern matching to do this job:

``````In[69]:= nList = {{a, b}, {f, g}, {n, o}};
lList = {a, b, c, k, m, n, o, z};
``````

The `@@@` is an alias for `Apply` at level `{1}`. The level 1 of `nList` contains your pairs, and applying replaces the head `List` in them with the function to the right of `@@@`.

``````In[71]:= MatchQ[lList, {___, ##, ___}] & @@@ nList

Out[71]= {True, False, True}
``````
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