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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}];]



  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}]]


In:First@Timing[c = Drop[a, {100}, {100}]]




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.

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You should check the More information section in the help. There is useful info there. In the Drop help entry you'll find {n} element n only :D –  belisarius Mar 14 '11 at 16:50
@belisarius: yes. just saw it. it feels a little lost in the maze though...thanks. –  Phil Mar 14 '11 at 20:12
That feeling is normal. It takes time to learn to navigate the help system and the inventory of functions is huge –  belisarius Mar 14 '11 at 20:27

2 Answers 2

up vote 7 down vote accepted

Part directly supports lists of indices when slicing arrays. The following definitions exploit that:

takeOperator[a_?MatrixQ, rows_List, cols_List] :=
  a[[rows, cols]]

dropOperator[a_?MatrixQ, rows_List, cols_List] :=
 a[[##]]& @@ complementaryIndices[a, rows, cols]

complementaryIndices[a_?MatrixQ, rows_List, cols_List] :=
  Complement @@@ Transpose @ {Range /@ Dimensions @ a, {rows, cols}}

Example use:

In[11]:= a = RandomInteger[1000, {5000, 5000}];
In[12]:= First @ Timing @ takeOperator[a, Range[1, 5000, 2], Range[1, 5000, 2]]
Out[12]= 0.016
In[13]:= First @ Timing @ dropOperator[a, Range[1, 5000, 2], Range[1, 5000, 2]]
Out[13]= 0.015
share|improve this answer

You can also use explicit ranges in a way that is fairly efficient. They may provide some more flexibility. Here is your example.

a = RandomInteger[1000, {5000, 5000}];

Timing[b = Drop[a, {101}, {101}];]

Out[66]= {0.041993, Null}

  c = a[[Join[Range[100], Range[102, 5000]], 
   Join[Range[100], Range[102, 5000]]]];]

Out[67]= {0.061991, Null}

c == b

Out[62]= True

I would also suggest use of Span except offhand I do not see how to get it to work in this setting.

Daniel Lichtblau Wolfram Research

share|improve this answer
@WReach: Thanks. To the point. I think it would be helpful if WRI could seamlessly integrate some choice support provided her in its software documentation illustrating the use of various functions of mathematica. –  Phil Mar 14 '11 at 16:54

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