# List::MoreUtils mesh or 'zip' function

So this question is purely for learning purposes and curiosity, but can anyone explain how the function below works?

``````sub mesh (\@\@;\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@) {
my \$max = -1;
\$max < \$#\$_ && ( \$max = \$#\$_ ) foreach @_;
map {
my \$ix = \$_;
map \$_->[\$ix], @_;
} 0 .. \$max;
}
``````

It's from the List::MoreUtils module. I'm using it in one of my applications and I happened to see the source code, and it made me feel like I don't know perl at all! Can anyone explain this craziness? :) Thanks!

I won't cover the prototypes part (mob said he will).

Here's a more readable version - ideally, it should be self explanatory

``````sub mesh (\@\@;\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@) {

# Calculate the maximum number of elements in each of the array refs
# we were passed:

my \$maxLength = 0;
foreach my \$array_ref (@_) { # @_ is all arrey refs passed in
if (\$maxLength < @\$array_ref) {
# we found an array longer than all previous ones
\$maxLength = @\$array_ref;
}
}

# If you represent the arrays as a matrix:
#   ARR1 = [ a1e1, a1e2, .... a1eN],
#   ARR2 = [ a2e1, a2e2, .... a2eN],
#    ...
#   ARR2 = [ aMe1, aMe2, .... aMeN];
# Then, we are simply walking through the matrix;
# each column top to bottom then move on to next column left to right
# (a1e1, a2e1, ... aMe1, a1e2, a2e2, ... aMeN)

my @results;
for (my \$index = 0; \$index < \$maxLength; \$index++) { # Iterate over columns
foreach my \$array_ref (@_) { # Iterate over per-row cells in each column
push @results, \$array_ref->[\$index];
}
} ;
}
``````

here's a commented original version

``````sub mesh (\@\@;\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@) {

# Calculate the largest index in each of the array refs
# @_ is an array of all the input arrayrefs
# \$_ will be one of the array refs in a foreach loop
# \$#{\$X} is the largest index in arrayref X; thus
# \$#\$_ is the largest index in arrayref \$_
my \$max = -1;
\$max < \$#\$_ && ( \$max = \$#\$_ ) foreach @_;

# Return a list, obtained by looping
# over every index from 0 to the maximal index of any of the arrays
# Then, for each value of the index (\$ix), push into the resulting list
# an element with that index from each of the arrays.
map {
my \$ix = \$_;
map \$_->[\$ix], @_;
} 0 .. \$max;
}
``````

One of the unusual things in this method is the `function signature (prototype)`.

``````sub mesh (\@\@;\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@\@) {
``````

As @mob and @ikegami wisely noted in the comments,

... It instructs Perl to expect between 2 and 32 named arrays, and to pass them to the function (in @_) as array references. So if you call `mesh @a,@b,@c`, then `@_` in mesh is set to `(\@a,\@b,\@c)` rather than one "flat" list with all the individual elements of `@a, @b, and @c` (mob)
... They technically don't need to be named, just dereferenced. e.g. `@\$ref` and `@{[qw( foo bar )]}` work just as well as `@a`. In other words, it has to start with `@` (and not be a slice). (ikegami)

In other words, the following 2 calls behave the same

``````my @a1 = (1);
my @a2 = (2);
sub mesh_prototype(\@\@) { print "\$_->\n" }
sub mesh_pass_arrayref() { print "\$_->\n" }
mesh_prototype(@a1, @a2);
mesh_pass_arrayref(\@a1, \@a2);
``````

This is done so that you can pass individual arrays (and not arrayrefs) as arguments to functions that will behave like built-ins (e.g. `map`/`sort`)

To answer Zaid's query as to what happens if 1 or 33 arrays are listed as parameters to call to `mesh()`, it will generate a compile time error:

``````Not enough arguments for main::mesh at mesh.pl line 16, near "@a1)"
Execution of mesh.pl aborted due to compilation errors.

Too many arguments for main::mesh at mesh.pl line 16, near "@a2)"
Execution of mesh.pl aborted due to compilation errors.
``````
• I'll cover the prototypes part :-). It instructs Perl to expect between 2 and 32 named arrays, and to pass them to the function (in `@_`) as array references. So if you call `mesh @a,@b,@c`, `@_` in `mesh` is set to `(\@a,\@b,\@c)` rather than one "flat" list with all the individual elements of `@a`, `@b`, and `@c`.
– mob
Jul 13, 2012 at 17:03
• @mob, They technically don't need to be named, just dereferenced. e.g. `@\$ref` and `@{[qw( foo bar )]}` work just as well as `@a`. In other words, it has to start with `@` (and not be a slice). Jul 13, 2012 at 17:46
• @DVK : I suppose you might want to cover what happens when 33 arguments are passed :)
– Zaid
Jul 15, 2012 at 14:43
• @Zaid - We all know what happens when you pass 33 arguments. "Skynet begins to learn at a geometric rate. It becomes self-aware at 2:14 a.m. Eastern time, August 29th."
– DVK
Jul 15, 2012 at 19:59