Mini-Unix/usr/doc/yacc/ss0
.SH
Section 0: Introduction
.PP
Yacc provides a general tool for imposing structure on the input to a computer program.
The Yacc user prepares a
specification of the input process; this includes rules
which describe the input structure, code which is to be invoked when these
structures are recognized, and a low-level routine to do the
basic input.
Yacc then produces a subroutine to do the input procedure;
this subroutine, called a
.I
parser,
.R
calls the user-supplied low-level input routine
(called the
.I
lexical analyzer)
.R
to pick up the basic items
(called
.I
tokens)
.R
from the input stream.
These tokens are organized according to the input structure rules,
called
.I
grammar rules;
.R
when one of these rules has been recognized,
then the user code supplied for this rule, called an
.I
action,
.R
is invoked; actions have the ability to return values and
make use of the values of other actions.
.PP
The heart of the input specification is a collection of grammar rules.
Each rule describes an allowable structure and gives it a name.
For example, one grammar rule might be
.DS
date : month\_name day \',\' year ;
.DE
Here, date, month\_name, day, and year represent structures of interest in the input process;
presumably, month\_name, day, and year are defined elsewhere.
The comma ``,'' is quoted by single quotes; this implies that the
comma is to appear literally in the input.
The colon and semicolon merely serve as punctuation in the rule, and have
no significance in controlling the input.
Thus, with proper definitions, the input
.DS
July 4, 1776
.DE
might be matched by the above rule.
.PP
As we mentioned above, an important part of the input process is carried out by the
lexical analyzer.
This user routine reads the true input stream, recognizing those
structures which are more conveniently or more
efficiently recognized directly, and communicates these recognized tokens
to the parser.
For historical reasons, the name of a structure recognized by the lexical analyzer is called a
.I
terminal symbol
.R
name, while the name of a structure recognized by the parser is called a
.I
nonterminal symbol
.R
name.
To avoid the obvious confusion of terminology, we shall usually refer to
terminal symbol names as
.I
token names.
.R
.PP
There is considerable leeway in deciding whether to recognize structures by the lexical
analyzer or by a grammar rule.
Thus, in the above example it would be possible to have other rules of the form
.DS
month\_name : \'J\' \'a\' \'n\' ;
month\_name : \'F\' \'e\' \'b\' ;
. . .
month\_name : \'D\' \'e\' \'c\' ;
.DE
Here, the lexical analyzer would only need to recognize individual letters, and
month\_name would be a nonterminal symbol.
Rules of this sort tend to be a bit wasteful of time and space, and may
even restrict the power of the input process
(although they are easy to write).
For a more efficient input process, the lexical analyzer itself might
recognize the month names,
and return an indication that a
month\_name was seen; in this case, month\_name would be a token.
.PP
Literal characters, such as ``,'', must also be passed through the lexical
analyzer, and are considered tokens.
.PP
As an example of the flexibility of the grammar rule approach, we might add to the above
specifications the rule
.DS
date : month \'/\' day \'/\' year ;
.DE
and thus optionally allow the form
.DS
7/4/1776
.DE
as a synonym for
.DS
July 4, 1776
.DE
In most cases, this new rule could be ``slipped in'' to a working system with minimal effort,
and a very small chance of disrupting existing input.
.PP
Frequently, the input being read does not conform to the
specifications due to errors in the
input.
The parsers produced by Yacc have
the very desirable property that they will detect these
input errors at the earliest
place at which this can be done with a
left-to-right scan;
thus, not only is the chance of reading and computing with bad
input data substantially reduced, but the bad data can usually be quickly found.
Error handling facilities,
entered as part of the input specifications, frequently
permit the reentry of bad data,
or the continuation of the input process after skipping over the bad data.
.PP
In some cases, Yacc fails to produce a parser when given a set of
specifications.
For example, the specifications may be self contradictory, or they may
require a more powerful recognition mechanism than that available to Yacc.
The former cases probably represent true design errors;
the latter cases
can often be corrected
by making
the lexical analyzer
more powerful, or by rewriting some of the grammar rules.
The class of specifications which Yacc can handle compares very favorably
with other systems of this type; moreover, the
constructions which are difficult for Yacc to handle are
also frequently difficult for human beings to handle.
Some users have reported that the discipline of formulating valid
Yacc specifications for their input revealed errors of
conception or design early in the program development.
.PP
The next several sections describe the
basic process of preparing a Yacc specification;
Section 1 describes the preparation of grammar rules,
Section 2 the preparation of the user supplied actions associated with these rules,
and Section 3 the preparation of lexical analyzers.
In Section 4, we discuss the
diagnostics produced when Yacc
is unable to produce a parser
from the given specifications.
This section also describes a simple, frequently useful mechanism for
handling operator precedences.
Section 5 discusses error detection and recovery.
Sections 6C and 6R discuss the operating environment and special features
of the subroutines which Yacc produces in C and Ratfor, respectively.
Section 7 gives some hints which
may lead to better designed, more efficient,
and clearer specifications.
Finally, Section 8 has a brief summary.
Appendix A has a brief example, and Appendix B tells how to run Yacc on
the UNIX operating system.
Appendix C has a brief description of mechanisms and syntax
which are no longer actively supported, but which
are provided for historical continuity with older versions of Yacc.