I'm new to Marpa. I've tried a couple ways to describe a list of 0 or more terms in my grammar, and I want to avoid multiple parse trees.
My language will have exactly 1 component followed by 0+ subcomponents:
package => component-rule [subcomponent-rule ...]
What I tried first was this:
{ lhs => 'Package', rhs => [qw/component-rule subcomponents/] },
{ lhs => 'subcomponents', rhs => [qw/subcomponent-list/] },
{ lhs => 'subcomponent-list', rhs => [qw/subcomponent-rule/], action => 'do_subcomponent_list' },
{ lhs => 'subcomponent-list', rhs => [qw/subcomponent-list subcomponent-rule/], action => 'do_subcomponent_list' },
{ lhs => 'subcomponent-list', rhs => [qw//], action => 'do_subcomponent_empty_list' },
{ lhs => 'subcomponent-rule', rhs => [qw/subcomponent subcomponent-name/], action => 'do_subcomponent' },
(Full code at end of post.)
Here's my input:
$recce->read( 'component', );
$recce->read( 'String', 'MO Factory');
$recce->read( 'subcomponent', );
$recce->read( 'String', 'Memory Wipe Station');
$recce->read( 'subcomponent', );
$recce->read( 'String', 'DMO Tour Robot');
I get two parse trees, the first one with an undesirable undef, and the second one which I prefer. Both give the list back as inherently a tree.
$VAR1 = [
{
'Component' => 'MO Factory'
},
[
[
{
'Subcomponent' => undef
},
{
'Subcomponent' => 'Memory Wipe Station'
}
],
{
'Subcomponent' => 'DMO Tour Robot'
}
]
];
$VAR2 = [
{
'Component' => 'MO Factory'
},
[
{
'Subcomponent' => 'Memory Wipe Station'
},
{
'Subcomponent' => 'DMO Tour Robot'
}
]
];
The nullable rule for subcomponent-list was to allow the case of 0 subcomponents, but it introduces the null element on the front of a list of 1+ subcomponents, which is an alternate parse. (Marpa descends the cycle only once, thank goodness.)
My other idea was to make subcomponent-list non-nullable, and introduce an intermediate rule that is 0 or 1 subcomponent-lists:
{ lhs => 'subcomponents', rhs => [qw//] },
{ lhs => 'subcomponents', rhs => [qw/subcomponent-list/] },
This at least eliminated the multiple parse, but I still have a cycle, and a messy nested tree to compress.
Is there a more direct way to make a 0+ length list or otherwise make a symbol optional?
Full sample code:
#!/usr/bin/perl
use Marpa::R2;
use Data::Dumper;
my $grammar = Marpa::R2::Grammar->new(
{ start => 'Package',
actions => 'My_Actions',
default_action => 'do_what_I_mean',
rules => [
{ lhs => 'Package', rhs => [qw/component-rule subcomponents/] },
{ lhs => 'component-name', rhs => [qw/String/] },
{ lhs => 'component-rule', rhs => [qw/component component-name/], action => 'do_component' },
{ lhs => 'subcomponent-name', rhs => [qw/String/] },
{ lhs => 'subcomponent-rule', rhs => [qw/subcomponent subcomponent-name/], action => 'do_subcomponent' },
{ lhs => 'subcomponents', rhs => [qw//] },
{ lhs => 'subcomponents', rhs => [qw/subcomponent-list/] },
{ lhs => 'subcomponent-list', rhs => [qw/subcomponent-rule/], action => 'do_subcomponent_list' },
{ lhs => 'subcomponent-list', rhs => [qw/subcomponent-list subcomponent-rule/], action => 'do_subcomponent_list' },
# { lhs => 'subcomponent-list', rhs => [qw//], action => 'do_subcomponent_empty_list' },
# { lhs => 'subcomponent-list', rhs => [qw//], },
],
}
);
$grammar->precompute();
my $recce = Marpa::R2::Recognizer->new( { grammar => $grammar } );
$recce->read( 'component', );
$recce->read( 'String', 'MO Factory');
if (1) {
$recce->read( 'subcomponent', );
$recce->read( 'String', 'Memory Wipe Station');
$recce->read( 'subcomponent', );
$recce->read( 'String', 'DMO Tour Robot');
$recce->read( 'subcomponent', );
$recce->read( 'String', 'SMO Break Room');
}
my @values = ();
while ( defined( my $value_ref = $recce->value() ) ) {
push @values, ${$value_ref};
}
print "result is ",Dumper(@values),"\n";
sub My_Actions::do_what_I_mean {
print STDERR "do_what_I_mean\n";
# The first argument is the per-parse variable.
# At this stage, just throw it away
shift;
# Throw away any undef's
my @children = grep { defined } @_;
# Return what's left
return scalar @children > 1 ? \@children : shift @children;
}
sub My_Actions::do_component {
my ( undef, $t1 ) = @_;
print STDERR "do_component $t1\n";
my $href = { 'Component' => $t1 };
return $href;
}
sub My_Actions::do_subcomponent{
my ( undef, $t1 ) = @_;
print STDERR "do_subcomponent $t1\n";
my $href = { 'Subcomponent' => $t1 };
return $href;
}
sub My_Actions::do_subcomponent_empty_list
{
print STDERR "do_subcomponent_empty_list\n";
my $href = { 'Subcomponent' => undef };
return $href;
}
sub My_Actions::do_subcomponent_list{
# The first argument is the per-parse variable.
# At this stage, just throw it away
shift;
# Throw away any undef's
my @children = grep { defined } @_;
print STDERR "do_subcomponent_list size ",scalar(@children),"\n";
# Do this to collapse recursive trees to a list:
# @children = map { ref $_ eq "ARRAY" ? @{$_} : $_; } @children;
return scalar @children > 1 ? \@children : shift @children;
}
Specify a sequence rule with the min
argument. The value may either be 0
(aka the *
quantifier in regexes) or 1
(aka the +
quantifier). You can do this by removing the subcomponents
and subcomponent-list
rules. Instead add:
{
lhs => 'subcomponents',
rhs => ['subcomponent-rule'],
min => 0,
action => 'do_subcomponent_list',
}
Your grammar then runs without further modifications.
Using sequence rules is preferable: No flattening has to take place, and the grammar should be more efficient.
Note that you are encouraged to use the Scanless Interface. The DSL abstracts nicely over this issue:
subcomponents ::= <subcomponent rule>* action => do_subcomponent_list
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