Let's say I have a nested hash describing money quantities:

my %money = (coins => {'50c' => 4}, notes => {'10' => 1, '20' => 5});

My desired format is a record list:

my @money = [
  (:type('coins'), :subtype('50c'), value => 4),
  (:type('notes'), :subtype('10'), value => 1),
  (:type('notes'), :subtype('20'), value => 5),
];

The most obvious answer is loops:

my @money;
for %money.kv -> $type, %sub-records {
  for %sub-records.kv -> $subtype, $value {
    @money.push: (:$type, :$subtype, :$value);
  }
}

But I'm allergic to separating a variable from the code that populates it. Next, I tried to create the variable with functional transformations on the input hash:

%money.kv.map: -> $k1, %hsh2 { :type($k1) X, %hsh2.kv.map(->$k2, $v2 {:subtype($k2), :$v2, :value($v2)}) }

But I didn't get the nesting right. I want a list of flat lists. Plus, the above is a mess to read.

The compromise is the gather/take construct which lets me construct a list by iteration without any temporary/uninitialized junk in the main scope:

my @money = gather for %money.kv -> $type, %sub-records {
  for %sub-records.kv -> $subtype, $value {
    take (:$type, :$subtype, :$value);
  }
};

But I'm curious, what is the right way to get this right with just list transformations like map, X or Z, and flat? ("key1", "key2", and "value" are fine field names, since an algorithm shouldn't be domain specific.)

Edit: I should mention that in Perl 6, gather/take is the most readable solution (best for code that's not write-only). I'm still curious about the pure functional solution.

  • I think this is a good use of gather/take – Brad Gilbert Dec 7 '17 at 6:11
  • @BradGilbert I do too, since it's probably the most readable solution, but I'm curious about the pure functional way. I'm reading your answer now. – piojo Dec 7 '17 at 6:20
up vote 2 down vote accepted
my @money = %money.map:
-> ( :key($type), :value(%records) ) {
  slip

      :$type xx *
    Z
      ( 'subtype' X=> %records.keys   )
    Z
      (   'value' X=> %records.values )
}

You could do .kv.map: -> $type, %records {…}


  • -> ( :key($type), :value(%records) ) {…} destructures a Pair object
  • :$type creates a type => $type Pair
  • :$type xx * repeats :$type infinitely (Z stops when any of it's inputs stops)
  • ('subtype' X=> %records.keys) creates a list of Pairs
    (Note that .keys and .values are in the same order if you don't modify the Hash between the calls)
  • Z zips two lists
  • slip causes the elements of the sequence to slip into the outer sequence
    (flat would flatten too much)

If you wanted them to be sorted

my @money = %money.sort.map: # 'coins' sorts before 'notes'
-> ( :key($type), :value(%records) ) {

  # sort by the numeric part of the key
  my @sorted = %records.sort( +*.key.match(/^\d+/) );

  slip

      :$type xx *
    Z
      ( 'subtype' X=> @sorted».key   )
    Z
      (   'value' X=> @sorted».value )
}

You could do .sort».kv.map: -> ($type, %records) {…}

  • Thanks! Using an infinite list and that first Z really makes it simpler. (X would work instead, but that creates another layer of nesting and needs to be removed with another slip.) – piojo Dec 7 '17 at 11:05

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