Re: Flattening a hypermatrix into an ordinary matrix

*To*: mathgroup at smc.vnet.net*Subject*: [mg126719] Re: Flattening a hypermatrix into an ordinary matrix*From*: danl at wolfram.com*Date*: Sat, 2 Jun 2012 05:43:32 -0400 (EDT)*Delivered-to*: l-mathgroup@mail-archive0.wolfram.com*References*: <jqa1j4$bjd$1@smc.vnet.net>

On Friday, June 1, 2012 4:21:40 AM UTC-5, car... at colorado.edu wrote: > I have an n x n hypermatrix, the entries of which are m x m blocks. > For example A below (m=3, n=2): > > A11={{B11,B12,B13},{B21,B22,B23},{B31,B32,B33}}; > A12={{C11,C12,C13},{C21,C22,C23},{C31,C32,C33}}; > A21={{D11,D12,D13},{D21,D22,D23},{D31,D32,D33}}; > A22={{E11,E12,E13},{E21,E22,E23},{E31,E32,E33}}; > A={{ A11,A12},{A21,A22}}; > > I want to convert this to an ordinary n*m x n*m matrix. > For the example I want A to become > > {{B11,B12,B13,C11,C12,C13},{B21,B22,B23,C21,C22,C23}, > {B31,B32,B33,C31,C32,C33},{D11,D12,D13,E11,E12,E13}, > {D21,D22,D23,E21,E22,E23},{D31,D32,D33,E31,E32,E33}} > > This can be easily done with C style loops as > > AA=Table[0,{m*n},{m*n}]; > For [i=1,i<=n,i++, For[j=1,j<=n,j++, > For [k=1,k<=m,k++, For [l=1,l<=m,l++, > AA[[m*(i-1)+k,m*(j-1)+l]]=A[[i,j,k,l]] > ]]]]; > > but is there a more elegant way using Flatten? > (Flatten[A,1] doesnt do it.) It should work also for blocks > of varying size for future use. In[449]:= ArrayFlatten[A] Out[449]= {{B11, B12, B13, C11, C12, C13}, {B21, B22, B23, C21, C22, C23}, {B31, B32, B33, C31, C32, C33}, {D11, D12, D13, E11, E12, E13}, {D21, D22, D23, E21, E22, E23}, {D31, D32, D33, E31, E32, E33}} (I was actually surprised to learn that ArrayFlatten did this "out of the box", so to speak. But then, I'm easily surprised.) Daniel Lichtblau Wolfram Research