Provided by: libmarpa-r2-perl_2.086000~dfsg-5build1_amd64 
NAME
Marpa::R2::NAIF::Semantics::Null - How the NAIF evaluates null rules and symbols
Overview
This document deals with Marpa's low-level NAIF interface. If you are new to Marpa, or
are not sure which interface you are interested in, or do not know what the Named Argment
InterFace (NAIF) is, you probably want to look instead at the document on semantics for
the SLIF interface.
In Marpa parses, rules and symbols can be nulled -- in other words they can derive the
zero-length, or null, string. Which symbols can be, or are, nulled, depends on the
grammar and the input. When a symbol or rule is not nulled, the symbol is said to be
visible.
Even the start symbol can be nulled, in which case the entire parse derives the null
string. A parse in which the start symbol is nulled is called a null parse.
When evaluating a parse, nulled rules and symbols are assigned values as described in the
semantics document. This document provides additional detail on the assignment of values
to nulled symbols.
Description
Null values come from rules
All null values for symbols come from rules with that symbol on their LHS. For a symbol
to be nulled, it must be on the LHS of at least one nullable rule. The action of one of
these nullable rules will be the action for the nulled symbol.
If the action is a constant, then that constant is the value of the nulled symbol. If the
action is a rule evaluation closure, then that closure is called with no child arguments,
and the closure's result is the value of the nulled symbol.
It may be that more than one nullable rule has that symbol on its LHS, and and that these
rules have different action names. In that case, the action for the empty rule with that
LHS is the one which applies. It is a fatal error if the nullable rules for a LHS symbol
have different action names, and there is no empty rule for that LHS symbol. A simple way
to fix this problem is create such an empty rule.
Null subtrees
A null subtree is a subtree all of whose symbols and rules are nulled. Marpa prunes all
null subtrees back to their topmost nulled symbol.
The "lost" semantics of the non-topmost symbols and rules of null subtrees is usually not
missed. Nulled subtrees cannot contain input, and therefore do not contain token symbols.
So no token values are lost when nulled subtrees are pruned. As bushy as a null subtree
might be, all of its symbols and rules are nulled.
Since nulled symbols and rules correspond to zero-length strings, so we are literally
dealing here with the "semantics of nothing". In theory the semantics of nothing can be
arbitrarily complex. In practice it should be possible to keep them simple.
Example
As already stated, Marpa prunes every null subtree back to its topmost null symbol. Here
is an example:
sub do_L {
shift;
return 'L(' . ( join q{;}, map { $_ // '[ERROR!]' } @_ ) . ')';
}
sub do_R {
return 'R(): I will never be called';
}
sub do_S {
shift;
return 'S(' . ( join q{;}, map { $_ // '[ERROR!]' } @_ ) . ')';
}
sub do_X { return 'X(' . $_[1] . ')'; }
sub do_Y { return 'Y(' . $_[1] . ')'; }
## no critic (Variables::ProhibitPackageVars)
our $null_A = 'null A';
our $null_B = 'null B';
our $null_L = 'null L';
our $null_R = 'null R';
our $null_X = 'null X';
our $null_Y = 'null Y';
## use critic
my $grammar = Marpa::R2::Grammar->new(
{ start => 'S',
actions => 'main',
rules => [
[ 'S', [qw/L R/], 'do_S' ],
[ 'L', [qw/A B X/], 'do_L' ],
[ 'L', [], 'null_L' ],
[ 'R', [qw/A B Y/], 'do_R' ],
[ 'R', [], 'null_R' ],
[ 'A', [], 'null_A' ],
[ 'B', [], 'null_B' ],
[ 'X', [], 'null_X' ],
[ 'X', [qw/x/], 'do_X' ],
[ 'Y', [], 'null_Y' ],
[ 'Y', [qw/y/], 'do_Y' ],
],
}
);
$grammar->precompute();
my $recce = Marpa::R2::Recognizer->new( { grammar => $grammar } );
$recce->read( 'x', 'x' );
If we write the unpruned parse tree in pre-order, depth-first, indenting children below
their parents, we get something like this:
0: Visible Rule: S := L R
1: Visible Rule L := A B X
1.1: Nulled Symbol A
1.2: Nulled Symbol B
1.3: Token, Value is 'x'
2: Nulled Rule, Rule R := A B Y
2.1: Nulled Symbol A
2.2: Nulled Symbol B
2.3: Nulled Symbol Y
In this example, five symbols and a rule are nulled. The rule and three of the symbols
are in a single subtree: 2, 2.1, 2.2 and 2.3. Marpa prunes every null subtree back to its
topmost symbol, which in this case is the LHS of the rule numbered 2.
The pruned tree looks like this
0: Visible Rule: S := L R
1: Visible Rule L := A B X
1.1: Nulled Symbol A
1.2: Nulled Symbol B
1.3: Token, Value is 'x'
2: LHS of Nulled Rule, Symbol R
Here is the output:
S(L(null A;null B;X(x));null R)
In the output we see
• The null value for symbol 1.1: ""null A"". This comes from the empty rule for "A".
• The null value for symbol 1.2: ""null B"". This comes from the empty rule for "B".
• The token value for symbol 1.3: ""x"".
• An application of the semantic Perl closure for the rule "L := A B X".
• The null value for rule 2: ""null R"". This comes from the empty rule for "R".
• An application of the semantic Perl closure for the rule "S := L R"
We do not see any output for symbols 2.1 ("A"), 2.2 ("B"), or 2.3 ("Y") because they were
not topmost in the pruned subtree. We do not see an application of the rule evaluation
closure for rule "R := A B Y", because there is an empty rule for "R", and that takes
priority.
Copyright and License
Copyright 2014 Jeffrey Kegler
This file is part of Marpa::R2. Marpa::R2 is free software: you can
redistribute it and/or modify it under the terms of the GNU Lesser
General Public License as published by the Free Software Foundation,
either version 3 of the License, or (at your option) any later version.
Marpa::R2 is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser
General Public License along with Marpa::R2. If not, see
http://www.gnu.org/licenses/.