This question is in a way a continuation of the question I asked here:Simple way to delete a matrix colum in Mathematica to which @belisarius and @Daniel provided very helpful answers.

What I am generally trying to do is to extract from a matrix A specific lines and columns OR what remains after what those specified are removed. So this can be formally writtewn as, find TakeOperator and Drop Operator such that:

TakeOperator[A,{i1,..,ip},{j1,...,jq}]=(A[[ik]][[jl]]) (1<=k<=p, 1<=l<=q) =`Table[A[[ik]][[jl]],{k,p},{l,q}]`

We note Ic={i'1,...,i'p'}=`Complement`

[{1,...,`Length[A]`

},{i1,...,ip}];Jc={j'1,...,j'q'}=`Complement`

[{1,...,`Length[A]`

},{j1,...,jq}];

DropOperator[A,{i1,..,ip},{j1,...,jq}]=(A[[ik]][[jl]]) (1<=k'<=p', 1<=l'<=q') =`Table[A[[ik']][[jl']],{k',p'},{l','q}]`

While `Table`

as described above does the trick, it is highly inefficient to use Table in that manner.

Just to give an idea, I took @ belisarius example:

```
In: First@Timing[a = RandomInteger[1000, {5000, 5000}];]
Out:0.218
In:Clear[b,c]
In:First@Timing[
b = Table[
If[i < 100, If[j < 100, a[[i]][[j]], a[[i]][[j + 1]]],
If[j < 100, a[[i + 1]][[j]], a[[i + 1]][[j + 1]]]], {i,
4999}, {j, 4999}]]
Out:140.807
In:First@Timing[c = Drop[a, {100}, {100}]]
Out:0.093
In:c===b
Out:True
```

Note: With respect to the use of `Drop`

in the earlier post, I thought about using it as well, but when I checked the documentation, there was no suggestion of getting it done the way @belisarius and @daniel suggested. If the documentation could be updated in that direction in future releases, it would be helpful.

More informationsection in the help. There is useful info there. In theDrophelp entry you'll find`{n} element n only`

:D – belisarius Mar 14 '11 at 16:50huge– belisarius Mar 14 '11 at 20:27