Marpa::XS::Parse_Terms - Standard Parsing Terms used in the Marpa Documents
This document is intended as a reminder of the standard vocabulary of parsing. I put defining uses of terms in boldface, for easy skimming. A reader who feels comfortable with parsing terminology can skip this document entirely. A reader completely new to parsing will find this document too terse and should look elsewhere first.
As an introduction, I recommend Mark Jason Dominus's excellent chapter on parsing in the Perl context. It's available on-line. Wikipedia is also an excellent place to start.
All the definitions here are consistent with at least some of the textbook definitions, and are in that sense standard. But no effort is made to cover the full range of standard meaning, or even to give the most common meaning. The focus is on the meaning of the terms as used in the Marpa documentation.
A grammar is a set of rules. The rules describe a set of strings of symbols. A string of symbols is often called a symbol string. The rules of a grammar are often called productions.
A recognizer is a program that determines whether its input is one of the symbol strings in the set described by the rules of a grammar. A parser is a program which finds the structure of the input according to the rules of a grammar.
The term parsing is used in a strict and a loose sense. Parsing in the loose sense means all the phases of finding a grammar's structure, including a separate recognition phase if the parser has one. (Marpa does.) If a parser has phases, parsing in the strict sense refers specifically to the phase that finds the structure of the input. When the Marpa documents use the term parsing in its strict sense, they will speak explicitly of "parsing in the strict sense". Otherwise, parsing will mean parsing in the loose sense.
Parsers often use a lexical analyzer to convert raw input, usually input text, into a series of tokens. Each token represents a symbol of the grammar and has a value. The series of symbols represented by the series of tokens becomes the symbol string input seen by the recognizer. The symbol string input is also called the input sentence. A lexical analyzer is often called a lexer or a scanner, and lexical analysis is often called lexing or scanning.
A standard way of describing rules is Backus-Naur Form, or BNF. In one common way of writing BNF, a production looks like this.
Expression ::= Term Factor
In the production above, Expression, Term and Factor are symbols. A production consists of a left hand side and a right hand side. In a context-free grammar, like those Marpa parses, the left hand side of a production is always a symbol string of length 1. The right hand side of a production is a symbol string of zero or more symbols. In the example, Expression is the left hand side, and Term and Factor are right hand side symbols.
Expression
Term
Factor
Left hand side and right hand side are often abbreviated as RHS and LHS. If the RHS of a production has no symbols, the production is called an empty production or an empty rule.
Any symbol which is allowed to occur in the symbol string input is called a terminal symbol. If the symbols in a symbol string are all terminals, that symbol string is also called a sentence.
A step of a derivation, or derivation step, is made by taking a symbol string and any production in the grammar whose LHS occurs in that symbol string, and replacing any occurrence of the LHS symbol in the symbol string with the RHS of the production. For example, if A, B, C, D, and X are symbols, and
A
B
C
D
X
X ::= B C
is a production, then
A X D -> A B C D
is a derivation step, with "A X D" as its beginning and "A B C D" as its end or result. We say that the symbol string "A X D" derives the symbol string "A B C D".
A X D
A B C D
A derivation is a sequence of derivation steps. The length of a derivation is its length in steps.
We say that a first symbol string directly derives a second symbol string if and only if there is a derivation of length 1 from the first symbol string to the second symbol string.
Every symbol string is said to derive itself in a derivation of length 0. Such a zero length derivation is a trivial derivation.
If a derivation is not trivial or direct, that is, if it has more than one step, then it is an indirect derivation.
A derivation which is not trivial (that is, a derivation which has one or more steps) is a non-trivial derivation.
If the symbol string of length 1 derives a second symbol string of any length, then the symbol contained in the first string is said to derive the second symbol string. A derivation from a symbol is said to be trivial, non-trivial, direct or indirect, according to whether the derivation from the symbol string of length 1 containing that symbol is trivial. non-trivial, direct or indirect. When a symbol produces or derives a symbol string, we also say that the symbol matches the symbol string, or that the symbol string matches the symbol.
In any parse, one symbol is distinguished as the start symbol. The parse of an input is successful if and only if the start symbol produces the input sentence according to the grammar.
The length of a symbol string is the number of symbols in it. The zero length symbol string is called the empty string. The empty string can be considered to be a sentence, in which case it is the empty sentence. A string of one or more symbols is non-empty. A derivation which produces the empty string is a null derivation. A derivation from the start symbol which produces the empty string is a null parse.
If in a particular grammar, a symbol has a null derivation, it is a nullable symbol. If, in a particular grammar, the only sentence produced by a symbol is the empty sentence, it is a nulling symbol. All nulling symbols are nullable symbols.
If a symbol is not nullable, it is non-nullable. If a symbol is not nulling, it is non-nulling. In any instance where a symbol produces the empty string, it is said to be nulled, or to be a null symbol.
If any derivation from the start symbol uses a rule, that rule is called reachable or accessible. A rule that is not accessible is called unreachable or inaccessible. If any derivation which results in a sentence uses a rule, that rule is said to be productive. A rule that is not productive is called unproductive. A simple case of an unproductive rule is one whose RHS contains a symbol which is not a terminal and not on the LHS of any other rule. A rule which is inaccessible or unproductive is called a useless rule. Marpa can handle grammars with useless rules.
A symbol is reachable if it appears in a reachable production. A symbol is productive if it appears on the LHS of a productive rule, or if it is a nullable symbol. If a symbol is not reachable or not accessible, it is unreachable or inaccessible. If a symbol is not productive, it is unproductive. A symbol which is inaccessible or unproductive is called a useless symbol. Marpa can handle grammars with useless symbols.
If any symbol in the grammar non-trivially produces a symbol string containing itself, the grammar is said to be recursive. If any symbol non-trivially produces a symbol string with itself on the left, the grammar is said to be left-recursive. If any symbol non-trivially produces a symbol string with itself on the right, the grammar is said to be right-recursive. Marpa can handle all recursive grammars, including grammars which are left-recursive, grammars which are right-recursive, and grammars which contain both left- and right-recursion.
A cycle is a non-trivial derivation from a string of symbols to itself. Since the result of a cycle is exactly the same as the beginning of a cycle, a cycle is the parsing equivalent of an infinite loop. A grammar which contains no cycles is cycle-free.
A grammar which contains a cycle is called infinitely ambiguous, because a grammar with a cycle can repeat that cycle in a derivation an arbitrary number of times. Marpa can handle cycles, and can produce parses for infinitely ambiguous grammars.
The structure of a parse can be represented as a series of derivation steps from the start symbol to the input. Another way to represent structure is as a parse tree. Every symbol used in the parse is represented by a node of the parse tree. Wherever a production is used in the parse, its LHS is represented by a parent node and the RHS symbols are represented by child nodes. The start symbol is the root of the tree. The node at the root of the tree is called the start node.
Terminals are leaf nodes. Any node with a symbol being used as a terminal is a terminal node. In Marpa, symbols on the left hand side of empty productions are also leaf nodes. If a node is not a leaf node, it is an inner node. A nulled node is one that represents a nulled symbol.
If, for a given grammar and a given input, more than one derivation tree is possible, we say that parse is ambiguous. The standard definition of an ambiguous grammar is that, if any parse from a grammar is ambiguous, the grammar is ambiguous.
Marpa is unusual in that it allows ambiguous input, so for Marpa this definition needs to be modified. In the Marpa context, a grammar is called ambiguous, if for any unambiguous input, some parse from that grammar is ambiguous. Marpa can handle ambiguous grammars, whether ambiguity is defined in the standard way, or used with its Marpa-specific meaning.
In real life, the structure of a parse is usually a means to an end. Grammars usually have a semantics associated with them, and what the user actually wants is the value of the parse according to the semantics.
The tree representation is especially useful when evaluating a parse. In the traditional method of evaluating a parse tree, every node which represents a terminal symbol has a value associated with it on input. Non-null inner nodes take their semantics from the production whose LHS they represent. Nulled nodes are dealt with as special cases.
The semantics for a production describe how to calculate the value of the node which represents the LHS (the parent node) from the values of zero or more of the nodes which represent the RHS symbols (child nodes). Values are computed recursively, bottom-up. The value of a parse is the value of its start symbol.
Copyright 2011 Jeffrey Kegler This file is part of Marpa::XS. Marpa::XS 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::XS 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::XS. If not, see http://www.gnu.org/licenses/.
To install Marpa::XS, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Marpa::XS
CPAN shell
perl -MCPAN -e shell install Marpa::XS
For more information on module installation, please visit the detailed CPAN module installation guide.