Matrices of Matrices within Perl

In a Perl script I'm working on, I need to build a matrix out of several other matrices. I've looked at a couple of modules in CPAN (Math::Matrix, PDL::Matrix, Math::Cephes::Matrix), but none of these seem to support this.

In Octave, this is very easy. Here's an example of something similar to what I'm trying to do:

``````octave:1> A = [ 1, 2; 3, 4 ]
A =
1   2
3   4

octave:2> B = [ 5, 6; 7, 8 ]
B =
5   6
7   8

octave:3> C = [ 9, 10; 11, 12 ]
C =
9   10
11   12

octave:4> D = [ 13, 14; 15, 16 ]
D =
13   14
15   16

octave:5> E = [ A, B; C, D ]
E =
1    2    5    6
3    4    7    8
9   10   13   14
11   12   15   16
``````

It seems trying to do this myself would get messy kinda quickly, which is probably why these modules don't support it... Has anyone else out there ever had a need for this? Have you solved it?

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Might be able to give a better answer if we know what you're using them for... –  flussence Mar 3 '09 at 22:06
Since you don't have the reputation to post a comment, feel free to respond by editing the question itself. –  Jon Ericson Mar 3 '09 at 23:39
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3 Answers

Rolling your own isn't too painful.

``````use List::Util qw(max);

@A = ([1, 2], [3, 4]);
@B = ([5, 6], [7, 8]);
@C = ([9, 10], [11, 12]);
@D = ([13, 14], [15, 16]);

sub hmerge(\@\@;\@\@\@\@\@\@) {
my @ret;
for my \$i (0 .. max map \$#\$_, @_) {
push @ret, [map @{\$\$_[\$i]}, @_];
}
@ret;
}

@E = (hmerge(@A, @B), hmerge(@C, @D));
``````
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This worked beautifully. I can't get back to the temporary account I used to ask this question, but as soon as I get that account merged with this one, I'll mark this as accepted. I'm a little confused though- what is \@\@;\@\@\@\@\@\@? –  Ryan Fox Mar 8 '09 at 7:17
Function prototypes -- not in frequent use in Perl 5. Here, it prevents squashing of the array arguments; you could drop the whole prototype and use `hmerge(\@A, \@B)` instead. –  ephemient Mar 9 '09 at 19:01
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The Perl Data Language (PDL) version 2.4.10 supports MATLAB-style convenience input for the `pdl` constructor when using a string argument and the `append` and `glue` routines can be used to paste subarrays together as this `pdl2` session shows:

``````pdl> \$A = pdl q[ 1, 2 ; 3, 4 ];       # pdl constructor with string argument

pdl> \$B = pdl q[ 5, 6 ; 7, 8 ];       # pdl constructor with string argument

pdl> \$C = pdl q[ 9, 10 ; 11, 12 ];    # pdl constructor with string argument

pdl> \$D = pdl q[ 13, 14 ; 15, 16];    # pdl constructor with string argument

pdl> ?vars
PDL variables in package main::

Name         Type   Dimension       Flow  State          Mem
----------------------------------------------------------------
\$A           Double D [2,2]                P            0.03KB
\$B           Double D [2,2]                P            0.03KB
\$C           Double D [2,2]                P            0.03KB
\$D           Double D [2,2]                P            0.03KB

pdl> p \$A, \$B, \$C, \$D;

[
[1 2]
[3 4]
]

[
[5 6]
[7 8]
]

[
[ 9 10]
[11 12]
]

[
[13 14]
[15 16]
]

pdl> p \$AB = \$A->append(\$B);          # concatenate horizontally (actually on dim(0))

[
[1 2 5 6]
[3 4 7 8]
]

pdl> p \$CD = \$C->append(\$D);          # concatenate horizontally (actually on dim(0))

[
[ 9 10 13 14]
[11 12 15 16]
]

pdl> p \$E = \$AB->glue(1,\$CD);         # glue vertically (actually on dim(1))
[
[ 1  2  5  6]
[ 3  4  7  8]
[ 9 10 13 14]
[11 12 15 16]
]
``````

The PDL book and the PDL mailing lists are essential sources for more information on PDL.

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EDIT

I misunderstood the OP, thinking that they wanted to iterate over all possible permutations of several matrices (which is what Iterator::Array::Jagged does).

Take a look at Iterator::Array::Jagged

Here is an example from the synopsis:

``````use Iterator::Array::Jagged;

# Build up a set of data:
my @data = (
[qw/ a b /],
[qw/ c d /],
[qw/ e f g /]
);

# Iterator is a subref:
my \$itersub = Iterator::Array::Jagged->get_iterator( @data );
while( my @set = \$itersub->() )
{
print "Next set: '" . join("&", @set) . "'\n";
}# end while()
``````

The example in the code above code prints the following:

``````Next set: 'a&c&e'
Next set: 'b&c&e'
Next set: 'a&d&e'
Next set: 'b&d&e'
Next set: 'a&c&f'
Next set: 'b&c&f'
Next set: 'a&d&f'
Next set: 'b&d&f'
Next set: 'a&c&g'
Next set: 'b&c&g'
Next set: 'a&d&g'
Next set: 'b&d&g'
``````
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I don't see how this helps? OP's example composes a large matrix out of smaller matrices. –  ephemient Mar 5 '09 at 14:59
I completely misunderstood the question. I thought the OP involved iterating through all possible permutations of multiple matrices. –  JDrago Mar 5 '09 at 21:55
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