* doc/bison.texinfo: Document ability to have multiple

[bison.git] / doc / bison.texinfo

diff --git a/doc/bison.texinfo b/doc/bison.texinfo
index 72093d437d8b7d85a76975dbf5b09a94859d80d4..0d3ce7d5fd7d8f7e87c6fb0343205ba98b571776 100644 (file)
--- a/doc/bison.texinfo
+++ b/doc/bison.texinfo
@@ -5,9 +5,7 @@
 @settitle Bison @value{VERSION}
 @setchapternewpage odd
 
 @settitle Bison @value{VERSION}
 @setchapternewpage odd
 

-@iftex

 @finalout
 @finalout

-@end iftex

 
 @c SMALL BOOK version
 @c This edition has been formatted so that you can format and print it in
 
 @c SMALL BOOK version
 @c This edition has been formatted so that you can format and print it in


@@ -23,6 +21,7 @@
 @c Check COPYRIGHT dates.  should be updated in the titlepage, ifinfo
 @c titlepage; should NOT be changed in the GPL.  --mew
 
 @c Check COPYRIGHT dates.  should be updated in the titlepage, ifinfo
 @c titlepage; should NOT be changed in the GPL.  --mew
 

+@c FIXME: I don't understand this `iftex'.  Obsolete? --akim.

 @iftex
 @syncodeindex fn cp
 @syncodeindex vr cp
 @iftex
 @syncodeindex fn cp
 @syncodeindex vr cp


@@ -47,7 +46,7 @@ END-INFO-DIR-ENTRY
 This file documents the Bison parser generator.
 
 Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1995, 1998, 1999,
 This file documents the Bison parser generator.
 
 Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1995, 1998, 1999,

-2000, 2001
+2000, 2001, 2002

 Free Software Foundation, Inc.
 
 Permission is granted to make and distribute verbatim copies of
 Free Software Foundation, Inc.
 
 Permission is granted to make and distribute verbatim copies of


@@ -89,7 +88,7 @@ instead of in the original English.
 @page
 @vskip 0pt plus 1filll
 Copyright @copyright{} 1988, 1989, 1990, 1991, 1992, 1993, 1995, 1998,
 @page
 @vskip 0pt plus 1filll
 Copyright @copyright{} 1988, 1989, 1990, 1991, 1992, 1993, 1995, 1998,

-1999, 2000, 2001
+1999, 2000, 2001, 2002

 Free Software Foundation, Inc.
 
 @sp 2
 Free Software Foundation, Inc.
 
 @sp 2


@@ -129,11 +128,13 @@ Cover art by Etienne Suvasa.
 
 @contents
 
 
 @contents
 

-@node Top, Introduction, (dir), (dir)
+@ifnottex
+@node Top
+@top Bison

 
 

-@ifinfo
-This manual documents version @value{VERSION} of Bison.
-@end ifinfo
+This manual documents version @value{VERSION} of Bison, updated
+@value{UPDATED}.
+@end ifnottex

 
 @menu
 * Introduction::
 
 @menu
 * Introduction::


@@ -152,14 +153,14 @@ Reference sections:
 * Error Recovery::    Writing rules for error recovery.
 * Context Dependency::  What to do if your language syntax is too
                         messy for Bison to handle straightforwardly.
 * Error Recovery::    Writing rules for error recovery.
 * Context Dependency::  What to do if your language syntax is too
                         messy for Bison to handle straightforwardly.

-* Debugging::         Debugging Bison parsers that parse wrong.
+* Debugging::         Understanding or debugging Bison parsers.

 * Invocation::        How to run Bison (to produce the parser source file).
 * Table of Symbols::  All the keywords of the Bison language are explained.
 * Glossary::          Basic concepts are explained.
 * Copying This Manual::  License for copying this manual.
 * Index::             Cross-references to the text.
 
 * Invocation::        How to run Bison (to produce the parser source file).
 * Table of Symbols::  All the keywords of the Bison language are explained.
 * Glossary::          Basic concepts are explained.
 * Copying This Manual::  License for copying this manual.
 * Index::             Cross-references to the text.
 

- --- The Detailed Node Listing ---
+@detailmenu --- The Detailed Node Listing ---

 
 The Concepts of Bison
 
 
 The Concepts of Bison
 


@@ -182,6 +183,7 @@ Examples
 * Infix Calc::        Infix (algebraic) notation calculator.
                         Operator precedence is introduced.
 * Simple Error Recovery::  Continuing after syntax errors.
 * Infix Calc::        Infix (algebraic) notation calculator.
                         Operator precedence is introduced.
 * Simple Error Recovery::  Continuing after syntax errors.

+* Location Tracking Calc:: Demonstrating the use of @@@var{n} and @@$.

 * Multi-function Calc::    Calculator with memory and trig functions.
                         It uses multiple data-types for semantic values.
 * Exercises::         Ideas for improving the multi-function calculator.
 * Multi-function Calc::    Calculator with memory and trig functions.
                         It uses multiple data-types for semantic values.
 * Exercises::         Ideas for improving the multi-function calculator.


@@ -202,6 +204,12 @@ Grammar Rules for @code{rpcalc}
 * Rpcalc Line::
 * Rpcalc Expr::
 
 * Rpcalc Line::
 * Rpcalc Expr::
 

+Location Tracking Calculator: @code{ltcalc}
+
+* Decls: Ltcalc Decls.  Bison and C declarations for ltcalc.
+* Rules: Ltcalc Rules.  Grammar rules for ltcalc, with explanations.
+* Lexer: Ltcalc Lexer.  The lexical analyzer.
+

 Multi-Function Calculator: @code{mfcalc}
 
 * Decl: Mfcalc Decl.      Bison declarations for multi-function calculator.
 Multi-Function Calculator: @code{mfcalc}
 
 * Decl: Mfcalc Decl.      Bison declarations for multi-function calculator.


@@ -290,6 +298,11 @@ Handling Context Dependencies
 * Tie-in Recovery::   Lexical tie-ins have implications for how
                         error recovery rules must be written.
 
 * Tie-in Recovery::   Lexical tie-ins have implications for how
                         error recovery rules must be written.
 

+Understanding or Debugging Your Parser
+
+* Understanding::     Understanding the structure of your parser.
+* Tracing::           Tracing the execution of your parser.
+

 Invoking Bison
 
 * Bison Options::     All the options described in detail,
 Invoking Bison
 
 * Bison Options::     All the options described in detail,


@@ -301,9 +314,10 @@ Copying This Manual
 
 * GNU Free Documentation License::  License for copying this manual.
 
 
 * GNU Free Documentation License::  License for copying this manual.
 

+@end detailmenu

 @end menu
 
 @end menu
 

-@node Introduction, Conditions, Top, Top
+@node Introduction

 @unnumbered Introduction
 @cindex introduction
 
 @unnumbered Introduction
 @cindex introduction
 


@@ -329,7 +343,7 @@ multi-character string literals and other features.
 
 This edition corresponds to version @value{VERSION} of Bison.
 
 
 This edition corresponds to version @value{VERSION} of Bison.
 

-@node Conditions, Copying, Introduction, Top
+@node Conditions

 @unnumbered Conditions for Using Bison
 
 As of Bison version 1.24, we have changed the distribution terms for
 @unnumbered Conditions for Using Bison
 
 As of Bison version 1.24, we have changed the distribution terms for


@@ -359,7 +373,7 @@ using the other GNU tools.
 
 @include gpl.texi
 
 
 @include gpl.texi
 

-@node Concepts, Examples, Copying, Top
+@node Concepts

 @chapter The Concepts of Bison
 
 This chapter introduces many of the basic concepts without which the
 @chapter The Concepts of Bison
 
 This chapter introduces many of the basic concepts without which the


@@ -381,7 +395,7 @@ use Bison or Yacc, we suggest you start by reading this chapter carefully.
 * Grammar Layout::    Overall structure of a Bison grammar file.
 @end menu
 
 * Grammar Layout::    Overall structure of a Bison grammar file.
 @end menu
 

-@node Language and Grammar, Grammar in Bison,  , Concepts
+@node Language and Grammar

 @section Languages and Context-Free Grammars
 
 @cindex context-free grammar
 @section Languages and Context-Free Grammars
 
 @cindex context-free grammar


@@ -423,7 +437,7 @@ smaller constructs according to grammatical rules are called
 @dfn{nonterminal symbols}; those which can't be subdivided are called
 @dfn{terminal symbols} or @dfn{token types}.  We call a piece of input
 corresponding to a single terminal symbol a @dfn{token}, and a piece
 @dfn{nonterminal symbols}; those which can't be subdivided are called
 @dfn{terminal symbols} or @dfn{token types}.  We call a piece of input
 corresponding to a single terminal symbol a @dfn{token}, and a piece

-corresponding to a single nonterminal symbol a @dfn{grouping}.@refill
+corresponding to a single nonterminal symbol a @dfn{grouping}.

 
 We can use the C language as an example of what symbols, terminal and
 nonterminal, mean.  The tokens of C are identifiers, constants (numeric and
 
 We can use the C language as an example of what symbols, terminal and
 nonterminal, mean.  The tokens of C are identifiers, constants (numeric and


@@ -437,16 +451,26 @@ lexicography, not grammar.)
 
 Here is a simple C function subdivided into tokens:
 
 
 Here is a simple C function subdivided into tokens:
 

+@ifinfo

 @example
 int             /* @r{keyword `int'} */
 @example
 int             /* @r{keyword `int'} */

-square (x)      /* @r{identifier, open-paren,} */
-                /* @r{identifier, close-paren} */
-     int x;     /* @r{keyword `int', identifier, semicolon} */
+square (int x)  /* @r{identifier, open-paren, identifier,}
+                   @r{identifier, close-paren} */

 @{               /* @r{open-brace} */
 @{               /* @r{open-brace} */

-  return x * x; /* @r{keyword `return', identifier,} */
-                /* @r{asterisk, identifier, semicolon} */
+  return x * x; /* @r{keyword `return', identifier, asterisk,
+                   identifier, semicolon} */

 @}               /* @r{close-brace} */
 @end example
 @}               /* @r{close-brace} */
 @end example

+@end ifinfo
+@ifnotinfo
+@example
+int             /* @r{keyword `int'} */
+square (int x)  /* @r{identifier, open-paren, identifier, identifier, close-paren} */
+@{               /* @r{open-brace} */
+  return x * x; /* @r{keyword `return', identifier, asterisk, identifier, semicolon} */
+@}               /* @r{close-brace} */
+@end example
+@end ifnotinfo

 
 The syntactic groupings of C include the expression, the statement, the
 declaration, and the function definition.  These are represented in the
 
 The syntactic groupings of C include the expression, the statement, the
 declaration, and the function definition.  These are represented in the


@@ -490,7 +514,7 @@ the grammar's start symbol.  If we use a grammar for C, the entire input
 must be a `sequence of definitions and declarations'.  If not, the parser
 reports a syntax error.
 
 must be a `sequence of definitions and declarations'.  If not, the parser
 reports a syntax error.
 

-@node Grammar in Bison, Semantic Values, Language and Grammar, Concepts
+@node Grammar in Bison

 @section From Formal Rules to Bison Input
 @cindex Bison grammar
 @cindex grammar, Bison
 @section From Formal Rules to Bison Input
 @cindex Bison grammar
 @cindex grammar, Bison


@@ -535,7 +559,7 @@ stmt:   RETURN expr ';'
 @noindent
 @xref{Rules, ,Syntax of Grammar Rules}.
 
 @noindent
 @xref{Rules, ,Syntax of Grammar Rules}.
 

-@node Semantic Values, Semantic Actions, Grammar in Bison, Concepts
+@node Semantic Values

 @section Semantic Values
 @cindex semantic value
 @cindex value, semantic
 @section Semantic Values
 @cindex semantic value
 @cindex value, semantic


@@ -545,7 +569,7 @@ if a rule mentions the terminal symbol `integer constant', it means that
 @emph{any} integer constant is grammatically valid in that position.  The
 precise value of the constant is irrelevant to how to parse the input: if
 @samp{x+4} is grammatical then @samp{x+1} or @samp{x+3989} is equally
 @emph{any} integer constant is grammatically valid in that position.  The
 precise value of the constant is irrelevant to how to parse the input: if
 @samp{x+4} is grammatical then @samp{x+1} or @samp{x+3989} is equally

-grammatical.@refill
+grammatical.

 
 But the precise value is very important for what the input means once it is
 parsed.  A compiler is useless if it fails to distinguish between 4, 1 and
 
 But the precise value is very important for what the input means once it is
 parsed.  A compiler is useless if it fails to distinguish between 4, 1 and


@@ -557,7 +581,7 @@ The token type is a terminal symbol defined in the grammar, such as
 @code{INTEGER}, @code{IDENTIFIER} or @code{','}.  It tells everything
 you need to know to decide where the token may validly appear and how to
 group it with other tokens.  The grammar rules know nothing about tokens
 @code{INTEGER}, @code{IDENTIFIER} or @code{','}.  It tells everything
 you need to know to decide where the token may validly appear and how to
 group it with other tokens.  The grammar rules know nothing about tokens

-except their types.@refill
+except their types.

 
 The semantic value has all the rest of the information about the
 meaning of the token, such as the value of an integer, or the name of an
 
 The semantic value has all the rest of the information about the
 meaning of the token, such as the value of an integer, or the name of an


@@ -577,7 +601,7 @@ semantic value that is a number.  In a compiler for a programming
 language, an expression typically has a semantic value that is a tree
 structure describing the meaning of the expression.
 
 language, an expression typically has a semantic value that is a tree
 structure describing the meaning of the expression.
 

-@node Semantic Actions, Locations Overview, Semantic Values, Concepts
+@node Semantic Actions

 @section Semantic Actions
 @cindex semantic actions
 @cindex actions, semantic
 @section Semantic Actions
 @cindex semantic actions
 @cindex actions, semantic


@@ -608,7 +632,7 @@ expr: expr '+' expr   @{ $$ = $1 + $3; @}
 The action says how to produce the semantic value of the sum expression
 from the values of the two subexpressions.
 
 The action says how to produce the semantic value of the sum expression
 from the values of the two subexpressions.
 

-@node Locations Overview, Bison Parser, Semantic Actions, Concepts
+@node Locations Overview

 @section Locations
 @cindex location
 @cindex textual position
 @section Locations
 @cindex location
 @cindex textual position


@@ -637,7 +661,7 @@ rule how @code{@@$} should be formed. When building a new location for a given
 grouping, the default behavior of the output parser is to take the beginning
 of the first symbol, and the end of the last symbol.
 
 grouping, the default behavior of the output parser is to take the beginning
 of the first symbol, and the end of the last symbol.
 

-@node Bison Parser, Stages, Locations Overview, Concepts
+@node Bison Parser

 @section Bison Output: the Parser File
 @cindex Bison parser
 @cindex Bison utility
 @section Bison Output: the Parser File
 @cindex Bison parser
 @cindex Bison utility


@@ -656,12 +680,13 @@ the grammar rules---for example, to build identifiers and operators into
 expressions.  As it does this, it runs the actions for the grammar rules it
 uses.
 
 expressions.  As it does this, it runs the actions for the grammar rules it
 uses.
 

-The tokens come from a function called the @dfn{lexical analyzer} that you
-must supply in some fashion (such as by writing it in C).  The Bison parser
-calls the lexical analyzer each time it wants a new token.  It doesn't know
-what is ``inside'' the tokens (though their semantic values may reflect
-this).  Typically the lexical analyzer makes the tokens by parsing
-characters of text, but Bison does not depend on this.  @xref{Lexical, ,The Lexical Analyzer Function @code{yylex}}.
+The tokens come from a function called the @dfn{lexical analyzer} that
+you must supply in some fashion (such as by writing it in C).  The Bison
+parser calls the lexical analyzer each time it wants a new token.  It
+doesn't know what is ``inside'' the tokens (though their semantic values
+may reflect this).  Typically the lexical analyzer makes the tokens by
+parsing characters of text, but Bison does not depend on this.
+@xref{Lexical, ,The Lexical Analyzer Function @code{yylex}}.

 
 The Bison parser file is C code which defines a function named
 @code{yyparse} which implements that grammar.  This function does not make
 
 The Bison parser file is C code which defines a function named
 @code{yyparse} which implements that grammar.  This function does not make


@@ -673,7 +698,7 @@ arrange for it to call @code{yyparse} or the parser will never run.
 @xref{Interface, ,Parser C-Language Interface}.
 
 Aside from the token type names and the symbols in the actions you
 @xref{Interface, ,Parser C-Language Interface}.
 
 Aside from the token type names and the symbols in the actions you

-write, all variable and function names used in the Bison parser file
+write, all symbols defined in the Bison parser file itself

 begin with @samp{yy} or @samp{YY}.  This includes interface functions
 such as the lexical analyzer function @code{yylex}, the error reporting
 function @code{yyerror} and the parser function @code{yyparse} itself.
 begin with @samp{yy} or @samp{YY}.  This includes interface functions
 such as the lexical analyzer function @code{yylex}, the error reporting
 function @code{yyerror} and the parser function @code{yyparse} itself.


@@ -682,7 +707,15 @@ Therefore, you should avoid using C identifiers starting with @samp{yy}
 or @samp{YY} in the Bison grammar file except for the ones defined in
 this manual.
 
 or @samp{YY} in the Bison grammar file except for the ones defined in
 this manual.
 

-@node Stages, Grammar Layout, Bison Parser, Concepts
+In some cases the Bison parser file includes system headers, and in
+those cases your code should respect the identifiers reserved by those
+headers.  On some non-@sc{gnu} hosts, @code{<alloca.h>},
+@code{<stddef.h>}, and @code{<stdlib.h>} are included as needed to
+declare memory allocators and related types.  Other system headers may
+be included if you define @code{YYDEBUG} to a nonzero value
+(@pxref{Tracing, ,Tracing Your Parser}).
+
+@node Stages

 @section Stages in Using Bison
 @cindex stages in using Bison
 @cindex using Bison
 @section Stages in Using Bison
 @cindex stages in using Bison
 @cindex using Bison


@@ -693,15 +726,16 @@ to a working compiler or interpreter, has these parts:
 @enumerate
 @item
 Formally specify the grammar in a form recognized by Bison
 @enumerate
 @item
 Formally specify the grammar in a form recognized by Bison

-(@pxref{Grammar File, ,Bison Grammar Files}).  For each grammatical rule in the language,
-describe the action that is to be taken when an instance of that rule
-is recognized.  The action is described by a sequence of C statements.
+(@pxref{Grammar File, ,Bison Grammar Files}).  For each grammatical rule
+in the language, describe the action that is to be taken when an
+instance of that rule is recognized.  The action is described by a
+sequence of C statements.

 
 @item
 
 @item

-Write a lexical analyzer to process input and pass tokens to the
-parser.  The lexical analyzer may be written by hand in C
-(@pxref{Lexical, ,The Lexical Analyzer Function @code{yylex}}).  It could also be produced using Lex, but the use
-of Lex is not discussed in this manual.
+Write a lexical analyzer to process input and pass tokens to the parser.
+The lexical analyzer may be written by hand in C (@pxref{Lexical, ,The
+Lexical Analyzer Function @code{yylex}}).  It could also be produced
+using Lex, but the use of Lex is not discussed in this manual.

 
 @item
 Write a controlling function that calls the Bison-produced parser.
 
 @item
 Write a controlling function that calls the Bison-produced parser.


@@ -724,7 +758,7 @@ Compile the code output by Bison, as well as any other source files.
 Link the object files to produce the finished product.
 @end enumerate
 
 Link the object files to produce the finished product.
 @end enumerate
 

-@node Grammar Layout,  , Stages, Concepts
+@node Grammar Layout

 @section The Overall Layout of a Bison Grammar
 @cindex grammar file
 @cindex file format
 @section The Overall Layout of a Bison Grammar
 @cindex grammar file
 @cindex file format


@@ -736,7 +770,7 @@ general form of a Bison grammar file is as follows:
 
 @example
 %@{
 
 @example
 %@{

-@var{Prologue (declarations)}
+@var{Prologue}

 %@}
 
 @var{Bison declarations}
 %@}
 
 @var{Bison declarations}


@@ -744,15 +778,15 @@ general form of a Bison grammar file is as follows:
 %%
 @var{Grammar rules}
 %%
 %%
 @var{Grammar rules}
 %%

-@var{Epilogue (additional code)}
+@var{Epilogue}

 @end example
 
 @noindent
 The @samp{%%}, @samp{%@{} and @samp{%@}} are punctuation that appears
 in every Bison grammar file to separate the sections.
 
 @end example
 
 @noindent
 The @samp{%%}, @samp{%@{} and @samp{%@}} are punctuation that appears
 in every Bison grammar file to separate the sections.
 

-The prologue may define types and variables used in the actions. You can 
-also use preprocessor commands to define macros used there, and use 
+The prologue may define types and variables used in the actions. You can
+also use preprocessor commands to define macros used there, and use

 @code{#include} to include header files that do any of these things.
 
 The Bison declarations declare the names of the terminal and nonterminal
 @code{#include} to include header files that do any of these things.
 
 The Bison declarations declare the names of the terminal and nonterminal


@@ -762,12 +796,12 @@ semantic values of various symbols.
 The grammar rules define how to construct each nonterminal symbol from its
 parts.
 
 The grammar rules define how to construct each nonterminal symbol from its
 parts.
 

-The epilogue can contain any code you want to use. Often the definition of 
-the lexical analyzer @code{yylex} goes here, plus subroutines called by the 
-actions in the grammar rules.  In a simple program, all the rest of the 
+The epilogue can contain any code you want to use. Often the definition of
+the lexical analyzer @code{yylex} goes here, plus subroutines called by the
+actions in the grammar rules.  In a simple program, all the rest of the

 program can go here.
 
 program can go here.
 

-@node Examples, Grammar File, Concepts, Top
+@node Examples

 @chapter Examples
 @cindex simple examples
 @cindex examples, simple
 @chapter Examples
 @cindex simple examples
 @cindex examples, simple


@@ -791,12 +825,13 @@ to try them.
 * Infix Calc::        Infix (algebraic) notation calculator.
                         Operator precedence is introduced.
 * Simple Error Recovery::  Continuing after syntax errors.
 * Infix Calc::        Infix (algebraic) notation calculator.
                         Operator precedence is introduced.
 * Simple Error Recovery::  Continuing after syntax errors.

+* Location Tracking Calc:: Demonstrating the use of @@@var{n} and @@$.

 * Multi-function Calc::  Calculator with memory and trig functions.
                            It uses multiple data-types for semantic values.
 * Exercises::         Ideas for improving the multi-function calculator.
 @end menu
 
 * Multi-function Calc::  Calculator with memory and trig functions.
                            It uses multiple data-types for semantic values.
 * Exercises::         Ideas for improving the multi-function calculator.
 @end menu
 

-@node RPN Calc, Infix Calc,  , Examples
+@node RPN Calc

 @section Reverse Polish Notation Calculator
 @cindex reverse polish notation
 @cindex polish notation calculator
 @section Reverse Polish Notation Calculator
 @cindex reverse polish notation
 @cindex polish notation calculator


@@ -821,7 +856,7 @@ The source code for this calculator is named @file{rpcalc.y}.  The
 * Comp: Rpcalc Compile. Run the C compiler on the output code.
 @end menu
 
 * Comp: Rpcalc Compile. Run the C compiler on the output code.
 @end menu
 

-@node Rpcalc Decls, Rpcalc Rules,  , RPN Calc
+@node Rpcalc Decls

 @subsection Declarations for @code{rpcalc}
 
 Here are the C and Bison declarations for the reverse polish notation
 @subsection Declarations for @code{rpcalc}
 
 Here are the C and Bison declarations for the reverse polish notation


@@ -844,24 +879,26 @@ The declarations section (@pxref{Prologue, , The prologue}) contains two
 preprocessor directives.
 
 The @code{#define} directive defines the macro @code{YYSTYPE}, thus
 preprocessor directives.
 
 The @code{#define} directive defines the macro @code{YYSTYPE}, thus

-specifying the C data type for semantic values of both tokens and groupings
-(@pxref{Value Type, ,Data Types of Semantic Values}).  The Bison parser will use whatever type
-@code{YYSTYPE} is defined as; if you don't define it, @code{int} is the
-default.  Because we specify @code{double}, each token and each expression
-has an associated value, which is a floating point number.
+specifying the C data type for semantic values of both tokens and
+groupings (@pxref{Value Type, ,Data Types of Semantic Values}).  The
+Bison parser will use whatever type @code{YYSTYPE} is defined as; if you
+don't define it, @code{int} is the default.  Because we specify
+@code{double}, each token and each expression has an associated value,
+which is a floating point number.

 
 The @code{#include} directive is used to declare the exponentiation
 function @code{pow}.
 
 
 The @code{#include} directive is used to declare the exponentiation
 function @code{pow}.
 

-The second section, Bison declarations, provides information to Bison about
-the token types (@pxref{Bison Declarations, ,The Bison Declarations Section}).  Each terminal symbol that is
-not a single-character literal must be declared here.  (Single-character
+The second section, Bison declarations, provides information to Bison
+about the token types (@pxref{Bison Declarations, ,The Bison
+Declarations Section}).  Each terminal symbol that is not a
+single-character literal must be declared here.  (Single-character

 literals normally don't need to be declared.)  In this example, all the
 arithmetic operators are designated by single-character literals, so the
 only terminal symbol that needs to be declared is @code{NUM}, the token
 type for numeric constants.
 
 literals normally don't need to be declared.)  In this example, all the
 arithmetic operators are designated by single-character literals, so the
 only terminal symbol that needs to be declared is @code{NUM}, the token
 type for numeric constants.
 

-@node Rpcalc Rules, Rpcalc Lexer, Rpcalc Decls, RPN Calc
+@node Rpcalc Rules

 @subsection Grammar Rules for @code{rpcalc}
 
 Here are the grammar rules for the reverse polish notation calculator.
 @subsection Grammar Rules for @code{rpcalc}
 
 Here are the grammar rules for the reverse polish notation calculator.


@@ -912,7 +949,7 @@ rule are referred to as @code{$1}, @code{$2}, and so on.
 * Rpcalc Expr::
 @end menu
 
 * Rpcalc Expr::
 @end menu
 

-@node Rpcalc Input, Rpcalc Line,  , Rpcalc Rules
+@node Rpcalc Input

 @subsubsection Explanation of @code{input}
 
 Consider the definition of @code{input}:
 @subsubsection Explanation of @code{input}
 
 Consider the definition of @code{input}:


@@ -946,7 +983,7 @@ The parser function @code{yyparse} continues to process input until a
 grammatical error is seen or the lexical analyzer says there are no more
 input tokens; we will arrange for the latter to happen at end of file.
 
 grammatical error is seen or the lexical analyzer says there are no more
 input tokens; we will arrange for the latter to happen at end of file.
 

-@node Rpcalc Line, Rpcalc Expr, Rpcalc Input, Rpcalc Rules
+@node Rpcalc Line

 @subsubsection Explanation of @code{line}
 
 Now consider the definition of @code{line}:
 @subsubsection Explanation of @code{line}
 
 Now consider the definition of @code{line}:


@@ -971,7 +1008,7 @@ uninitialized (its value will be unpredictable).  This would be a bug if
 that value were ever used, but we don't use it: once rpcalc has printed the
 value of the user's input line, that value is no longer needed.
 
 that value were ever used, but we don't use it: once rpcalc has printed the
 value of the user's input line, that value is no longer needed.
 

-@node Rpcalc Expr,  , Rpcalc Line, Rpcalc Rules
+@node Rpcalc Expr

 @subsubsection Explanation of @code{expr}
 
 The @code{exp} grouping has several rules, one for each kind of expression.
 @subsubsection Explanation of @code{expr}
 
 The @code{exp} grouping has several rules, one for each kind of expression.


@@ -1030,14 +1067,15 @@ exp:      NUM
 @noindent
 The latter, however, is much more readable.
 
 @noindent
 The latter, however, is much more readable.
 

-@node Rpcalc Lexer, Rpcalc Main, Rpcalc Rules, RPN Calc
+@node Rpcalc Lexer

 @subsection The @code{rpcalc} Lexical Analyzer
 @cindex writing a lexical analyzer
 @cindex lexical analyzer, writing
 
 @subsection The @code{rpcalc} Lexical Analyzer
 @cindex writing a lexical analyzer
 @cindex lexical analyzer, writing
 

-The lexical analyzer's job is low-level parsing: converting characters or
-sequences of characters into tokens.  The Bison parser gets its tokens by
-calling the lexical analyzer.  @xref{Lexical, ,The Lexical Analyzer Function @code{yylex}}.
+The lexical analyzer's job is low-level parsing: converting characters
+or sequences of characters into tokens.  The Bison parser gets its
+tokens by calling the lexical analyzer.  @xref{Lexical, ,The Lexical
+Analyzer Function @code{yylex}}.

 
 Only a simple lexical analyzer is needed for the RPN calculator.  This
 lexical analyzer skips blanks and tabs, then reads in numbers as
 
 Only a simple lexical analyzer is needed for the RPN calculator.  This
 lexical analyzer skips blanks and tabs, then reads in numbers as


@@ -1049,16 +1087,17 @@ The return value of the lexical analyzer function is a numeric code which
 represents a token type.  The same text used in Bison rules to stand for
 this token type is also a C expression for the numeric code for the type.
 This works in two ways.  If the token type is a character literal, then its
 represents a token type.  The same text used in Bison rules to stand for
 this token type is also a C expression for the numeric code for the type.
 This works in two ways.  If the token type is a character literal, then its

-numeric code is the ASCII code for that character; you can use the same
+numeric code is that of the character; you can use the same

 character literal in the lexical analyzer to express the number.  If the
 token type is an identifier, that identifier is defined by Bison as a C
 macro whose definition is the appropriate number.  In this example,
 therefore, @code{NUM} becomes a macro for @code{yylex} to use.
 
 character literal in the lexical analyzer to express the number.  If the
 token type is an identifier, that identifier is defined by Bison as a C
 macro whose definition is the appropriate number.  In this example,
 therefore, @code{NUM} becomes a macro for @code{yylex} to use.
 

-The semantic value of the token (if it has one) is stored into the global
-variable @code{yylval}, which is where the Bison parser will look for it.
-(The C data type of @code{yylval} is @code{YYSTYPE}, which was defined
-at the beginning of the grammar; @pxref{Rpcalc Decls, ,Declarations for @code{rpcalc}}.)
+The semantic value of the token (if it has one) is stored into the
+global variable @code{yylval}, which is where the Bison parser will look
+for it.  (The C data type of @code{yylval} is @code{YYSTYPE}, which was
+defined at the beginning of the grammar; @pxref{Rpcalc Decls,
+,Declarations for @code{rpcalc}}.)

 
 A token type code of zero is returned if the end-of-file is encountered.
 (Bison recognizes any nonpositive value as indicating the end of the
 
 A token type code of zero is returned if the end-of-file is encountered.
 (Bison recognizes any nonpositive value as indicating the end of the


@@ -1069,8 +1108,8 @@ Here is the code for the lexical analyzer:
 @example
 @group
 /* Lexical analyzer returns a double floating point
 @example
 @group
 /* Lexical analyzer returns a double floating point

-   number on the stack and the token NUM, or the ASCII
-   character read if not a number.  Skips all blanks
+   number on the stack and the token NUM, or the numeric code
+   of the character read if not a number.  Skips all blanks

    and tabs, returns 0 for EOF. */
 
 #include <ctype.h>
    and tabs, returns 0 for EOF. */
 
 #include <ctype.h>


@@ -1105,7 +1144,7 @@ yylex (void)
 @end group
 @end example
 
 @end group
 @end example
 

-@node Rpcalc Main, Rpcalc Error, Rpcalc Lexer, RPN Calc
+@node Rpcalc Main

 @subsection The Controlling Function
 @cindex controlling function
 @cindex main function in simple example
 @subsection The Controlling Function
 @cindex controlling function
 @cindex main function in simple example


@@ -1124,7 +1163,7 @@ main (void)
 @end group
 @end example
 
 @end group
 @end example
 

-@node Rpcalc Error, Rpcalc Gen, Rpcalc Main, RPN Calc
+@node Rpcalc Error

 @subsection The Error Reporting Routine
 @cindex error reporting routine
 
 @subsection The Error Reporting Routine
 @cindex error reporting routine
 


@@ -1153,7 +1192,7 @@ have not written any error rules in this example, so any invalid input will
 cause the calculator program to exit.  This is not clean behavior for a
 real calculator, but it is adequate for the first example.
 
 cause the calculator program to exit.  This is not clean behavior for a
 real calculator, but it is adequate for the first example.
 

-@node Rpcalc Gen, Rpcalc Compile, Rpcalc Error, RPN Calc
+@node Rpcalc Gen

 @subsection Running Bison to Make the Parser
 @cindex running Bison (introduction)
 
 @subsection Running Bison to Make the Parser
 @cindex running Bison (introduction)
 


@@ -1161,7 +1200,7 @@ Before running Bison to produce a parser, we need to decide how to
 arrange all the source code in one or more source files.  For such a
 simple example, the easiest thing is to put everything in one file.  The
 definitions of @code{yylex}, @code{yyerror} and @code{main} go at the
 arrange all the source code in one or more source files.  For such a
 simple example, the easiest thing is to put everything in one file.  The
 definitions of @code{yylex}, @code{yyerror} and @code{main} go at the

-end, in the epilogue of the file 
+end, in the epilogue of the file

 (@pxref{Grammar Layout, ,The Overall Layout of a Bison Grammar}).
 
 For a large project, you would probably have several source files, and use
 (@pxref{Grammar Layout, ,The Overall Layout of a Bison Grammar}).
 
 For a large project, you would probably have several source files, and use


@@ -1182,7 +1221,7 @@ Bison contains the source code for @code{yyparse}.  The additional
 functions in the input file (@code{yylex}, @code{yyerror} and @code{main})
 are copied verbatim to the output.
 
 functions in the input file (@code{yylex}, @code{yyerror} and @code{main})
 are copied verbatim to the output.
 

-@node Rpcalc Compile,  , Rpcalc Gen, RPN Calc
+@node Rpcalc Compile

 @subsection Compiling the Parser File
 @cindex compiling the parser
 
 @subsection Compiling the Parser File
 @cindex compiling the parser
 


@@ -1191,19 +1230,19 @@ Here is how to compile and run the parser file:
 @example
 @group
 # @r{List files in current directory.}
 @example
 @group
 # @r{List files in current directory.}

-% ls
+$ @kbd{ls}

 rpcalc.tab.c  rpcalc.y
 @end group
 
 @group
 # @r{Compile the Bison parser.}
 # @r{@samp{-lm} tells compiler to search math library for @code{pow}.}
 rpcalc.tab.c  rpcalc.y
 @end group
 
 @group
 # @r{Compile the Bison parser.}
 # @r{@samp{-lm} tells compiler to search math library for @code{pow}.}

-% cc rpcalc.tab.c -lm -o rpcalc
+$ @kbd{cc rpcalc.tab.c -lm -o rpcalc}

 @end group
 
 @group
 # @r{List files again.}
 @end group
 
 @group
 # @r{List files again.}

-% ls
+$ @kbd{ls}

 rpcalc  rpcalc.tab.c  rpcalc.y
 @end group
 @end example
 rpcalc  rpcalc.tab.c  rpcalc.y
 @end group
 @end example


@@ -1212,22 +1251,22 @@ The file @file{rpcalc} now contains the executable code.  Here is an
 example session using @code{rpcalc}.
 
 @example
 example session using @code{rpcalc}.
 
 @example

-% rpcalc
-4 9 +
+$ @kbd{rpcalc}
+@kbd{4 9 +}

 13
 13

-3 7 + 3 4 5 *+-
+@kbd{3 7 + 3 4 5 *+-}

 -13
 -13

-3 7 + 3 4 5 * + - n              @r{Note the unary minus, @samp{n}}
+@kbd{3 7 + 3 4 5 * + - n}              @r{Note the unary minus, @samp{n}}

 13
 13

-5 6 / 4 n +
+@kbd{5 6 / 4 n +}

 -3.166666667
 -3.166666667

-3 4 ^                            @r{Exponentiation}
+@kbd{3 4 ^}                            @r{Exponentiation}

 81
 81

-^D                               @r{End-of-file indicator}
-%
+@kbd{^D}                               @r{End-of-file indicator}
+$

 @end example
 
 @end example
 

-@node Infix Calc, Simple Error Recovery, RPN Calc, Examples
+@node Infix Calc

 @section Infix Notation Calculator: @code{calc}
 @cindex infix notation calculator
 @cindex @code{calc}
 @section Infix Notation Calculator: @code{calc}
 @cindex infix notation calculator
 @cindex @code{calc}


@@ -1293,27 +1332,29 @@ Operator precedence is determined by the line ordering of the
 declarations; the higher the line number of the declaration (lower on
 the page or screen), the higher the precedence.  Hence, exponentiation
 has the highest precedence, unary minus (@code{NEG}) is next, followed
 declarations; the higher the line number of the declaration (lower on
 the page or screen), the higher the precedence.  Hence, exponentiation
 has the highest precedence, unary minus (@code{NEG}) is next, followed

-by @samp{*} and @samp{/}, and so on.  @xref{Precedence, ,Operator Precedence}.
+by @samp{*} and @samp{/}, and so on.  @xref{Precedence, ,Operator
+Precedence}.

 
 

-The other important new feature is the @code{%prec} in the grammar section
-for the unary minus operator.  The @code{%prec} simply instructs Bison that
-the rule @samp{| '-' exp} has the same precedence as @code{NEG}---in this
-case the next-to-highest.  @xref{Contextual Precedence, ,Context-Dependent Precedence}.
+The other important new feature is the @code{%prec} in the grammar
+section for the unary minus operator.  The @code{%prec} simply instructs
+Bison that the rule @samp{| '-' exp} has the same precedence as
+@code{NEG}---in this case the next-to-highest.  @xref{Contextual
+Precedence, ,Context-Dependent Precedence}.

 
 Here is a sample run of @file{calc.y}:
 
 @need 500
 @example
 
 Here is a sample run of @file{calc.y}:
 
 @need 500
 @example

-% calc
-4 + 4.5 - (34/(8*3+-3))
+$ @kbd{calc}
+@kbd{4 + 4.5 - (34/(8*3+-3))}

 6.880952381
 6.880952381

--56 + 2
+@kbd{-56 + 2}

 -54
 -54

-3 ^ 2
+@kbd{3 ^ 2}

 9
 @end example
 
 9
 @end example
 

-@node Simple Error Recovery, Multi-function Calc, Infix Calc, Examples
+@node Simple Error Recovery

 @section Simple Error Recovery
 @cindex error recovery, simple
 
 @section Simple Error Recovery
 @cindex error recovery, simple
 


@@ -1345,7 +1386,7 @@ upon to print its message as well.)  The action executes the statement
 @code{yyerrok}, a macro defined automatically by Bison; its meaning is
 that error recovery is complete (@pxref{Error Recovery}).  Note the
 difference between @code{yyerrok} and @code{yyerror}; neither one is a
 @code{yyerrok}, a macro defined automatically by Bison; its meaning is
 that error recovery is complete (@pxref{Error Recovery}).  Note the
 difference between @code{yyerrok} and @code{yyerror}; neither one is a

-misprint.@refill
+misprint.

 
 This form of error recovery deals with syntax errors.  There are other
 kinds of errors; for example, division by zero, which raises an exception
 
 This form of error recovery deals with syntax errors.  There are other
 kinds of errors; for example, division by zero, which raises an exception


@@ -1355,7 +1396,206 @@ input lines; it would also have to discard the rest of the current line of
 input.  We won't discuss this issue further because it is not specific to
 Bison programs.
 
 input.  We won't discuss this issue further because it is not specific to
 Bison programs.
 

-@node Multi-function Calc, Exercises, Simple Error Recovery, Examples
+@node Location Tracking Calc
+@section Location Tracking Calculator: @code{ltcalc}
+@cindex location tracking calculator
+@cindex @code{ltcalc}
+@cindex calculator, location tracking
+
+This example extends the infix notation calculator with location
+tracking.  This feature will be used to improve the error messages.  For
+the sake of clarity, this example is a simple integer calculator, since
+most of the work needed to use locations will be done in the lexical
+analyser.
+
+@menu
+* Decls: Ltcalc Decls.  Bison and C declarations for ltcalc.
+* Rules: Ltcalc Rules.  Grammar rules for ltcalc, with explanations.
+* Lexer: Ltcalc Lexer.  The lexical analyzer.
+@end menu
+
+@node Ltcalc Decls
+@subsection Declarations for @code{ltcalc}
+
+The C and Bison declarations for the location tracking calculator are
+the same as the declarations for the infix notation calculator.
+
+@example
+/* Location tracking calculator.  */
+
+%@{
+#define YYSTYPE int
+#include <math.h>
+%@}
+
+/* Bison declarations.  */
+%token NUM
+
+%left '-' '+'
+%left '*' '/'
+%left NEG
+%right '^'
+
+%% /* Grammar follows */
+@end example
+
+@noindent
+Note there are no declarations specific to locations.  Defining a data
+type for storing locations is not needed: we will use the type provided
+by default (@pxref{Location Type, ,Data Types of Locations}), which is a
+four member structure with the following integer fields:
+@code{first_line}, @code{first_column}, @code{last_line} and
+@code{last_column}.
+
+@node Ltcalc Rules
+@subsection Grammar Rules for @code{ltcalc}
+
+Whether handling locations or not has no effect on the syntax of your
+language.  Therefore, grammar rules for this example will be very close
+to those of the previous example: we will only modify them to benefit
+from the new information.
+
+Here, we will use locations to report divisions by zero, and locate the
+wrong expressions or subexpressions.
+
+@example
+@group
+input   : /* empty */
+        | input line
+;
+@end group
+
+@group
+line    : '\n'
+        | exp '\n' @{ printf ("%d\n", $1); @}
+;
+@end group
+
+@group
+exp     : NUM           @{ $$ = $1; @}
+        | exp '+' exp   @{ $$ = $1 + $3; @}
+        | exp '-' exp   @{ $$ = $1 - $3; @}
+        | exp '*' exp   @{ $$ = $1 * $3; @}
+@end group
+@group
+        | exp '/' exp
+            @{
+              if ($3)
+                $$ = $1 / $3;
+              else
+                @{
+                  $$ = 1;
+                  fprintf (stderr, "%d.%d-%d.%d: division by zero",
+                           @@3.first_line, @@3.first_column,
+                           @@3.last_line, @@3.last_column);
+                @}
+            @}
+@end group
+@group
+        | '-' exp %preg NEG     @{ $$ = -$2; @}
+        | exp '^' exp           @{ $$ = pow ($1, $3); @}
+        | '(' exp ')'           @{ $$ = $2; @}
+@end group
+@end example
+
+This code shows how to reach locations inside of semantic actions, by
+using the pseudo-variables @code{@@@var{n}} for rule components, and the
+pseudo-variable @code{@@$} for groupings.
+
+We don't need to assign a value to @code{@@$}: the output parser does it
+automatically.  By default, before executing the C code of each action,
+@code{@@$} is set to range from the beginning of @code{@@1} to the end
+of @code{@@@var{n}}, for a rule with @var{n} components.  This behavior
+can be redefined (@pxref{Location Default Action, , Default Action for
+Locations}), and for very specific rules, @code{@@$} can be computed by
+hand.
+
+@node Ltcalc Lexer
+@subsection The @code{ltcalc} Lexical Analyzer.
+
+Until now, we relied on Bison's defaults to enable location
+tracking. The next step is to rewrite the lexical analyser, and make it
+able to feed the parser with the token locations, as it already does for
+semantic values.
+
+To this end, we must take into account every single character of the
+input text, to avoid the computed locations of being fuzzy or wrong:
+
+@example
+@group
+int
+yylex (void)
+@{
+  int c;
+
+  /* skip white space */
+  while ((c = getchar ()) == ' ' || c == '\t')
+    ++yylloc.last_column;
+
+  /* step */
+  yylloc.first_line = yylloc.last_line;
+  yylloc.first_column = yylloc.last_column;
+@end group
+
+@group
+  /* process numbers */
+  if (isdigit (c))
+    @{
+      yylval = c - '0';
+      ++yylloc.last_column;
+      while (isdigit (c = getchar ()))
+        @{
+          ++yylloc.last_column;
+          yylval = yylval * 10 + c - '0';
+        @}
+      ungetc (c, stdin);
+      return NUM;
+    @}
+@end group
+
+  /* return end-of-file */
+  if (c == EOF)
+    return 0;
+
+  /* return single chars and update location */
+  if (c == '\n')
+    @{
+      ++yylloc.last_line;
+      yylloc.last_column = 0;
+    @}
+  else
+    ++yylloc.last_column;
+  return c;
+@}
+@end example
+
+Basically, the lexical analyzer performs the same processing as before:
+it skips blanks and tabs, and reads numbers or single-character tokens.
+In addition, it updates @code{yylloc}, the global variable (of type
+@code{YYLTYPE}) containing the token's location.
+
+Now, each time this function returns a token, the parser has its number
+as well as its semantic value, and its location in the text. The last
+needed change is to initialize @code{yylloc}, for example in the
+controlling function:
+
+@example
+@group
+int
+main (void)
+@{
+  yylloc.first_line = yylloc.last_line = 1;
+  yylloc.first_column = yylloc.last_column = 0;
+  return yyparse ();
+@}
+@end group
+@end example
+
+Remember that computing locations is not a matter of syntax.  Every
+character must be associated to a location update, whether it is in
+valid input, in comments, in literal strings, and so on.
+
+@node Multi-function Calc

 @section Multi-Function Calculator: @code{mfcalc}
 @cindex multi-function calculator
 @cindex @code{mfcalc}
 @section Multi-Function Calculator: @code{mfcalc}
 @cindex multi-function calculator
 @cindex @code{mfcalc}


@@ -1383,20 +1623,20 @@ to create named variables, store values in them, and use them later.
 Here is a sample session with the multi-function calculator:
 
 @example
 Here is a sample session with the multi-function calculator:
 
 @example

-% mfcalc
-pi = 3.141592653589
+$ @kbd{mfcalc}
+@kbd{pi = 3.141592653589}

 3.1415926536
 3.1415926536

-sin(pi)
+@kbd{sin(pi)}

 0.0000000000
 0.0000000000

-alpha = beta1 = 2.3
+@kbd{alpha = beta1 = 2.3}

 2.3000000000
 2.3000000000

-alpha
+@kbd{alpha}

 2.3000000000
 2.3000000000

-ln(alpha)
+@kbd{ln(alpha)}

 0.8329091229
 0.8329091229

-exp(ln(beta1))
+@kbd{exp(ln(beta1))}

 2.3000000000
 2.3000000000

-%
+$

 @end example
 
 Note that multiple assignment and nested function calls are permitted.
 @end example
 
 Note that multiple assignment and nested function calls are permitted.


@@ -1407,7 +1647,7 @@ Note that multiple assignment and nested function calls are permitted.
 * Symtab: Mfcalc Symtab.  Symbol table management subroutines.
 @end menu
 
 * Symtab: Mfcalc Symtab.  Symbol table management subroutines.
 @end menu
 

-@node Mfcalc Decl, Mfcalc Rules,  , Multi-function Calc
+@node Mfcalc Decl

 @subsection Declarations for @code{mfcalc}
 
 Here are the C and Bison declarations for the multi-function calculator.
 @subsection Declarations for @code{mfcalc}
 
 Here are the C and Bison declarations for the multi-function calculator.


@@ -1452,13 +1692,14 @@ are @code{NUM}, @code{VAR}, @code{FNCT}, and @code{exp}.  Their
 declarations are augmented with information about their data type (placed
 between angle brackets).
 
 declarations are augmented with information about their data type (placed
 between angle brackets).
 

-The Bison construct @code{%type} is used for declaring nonterminal symbols,
-just as @code{%token} is used for declaring token types.  We have not used
-@code{%type} before because nonterminal symbols are normally declared
-implicitly by the rules that define them.  But @code{exp} must be declared
-explicitly so we can specify its value type.  @xref{Type Decl, ,Nonterminal Symbols}.
+The Bison construct @code{%type} is used for declaring nonterminal
+symbols, just as @code{%token} is used for declaring token types.  We
+have not used @code{%type} before because nonterminal symbols are
+normally declared implicitly by the rules that define them.  But
+@code{exp} must be declared explicitly so we can specify its value type.
+@xref{Type Decl, ,Nonterminal Symbols}.

 
 

-@node Mfcalc Rules, Mfcalc Symtab, Mfcalc Decl, Multi-function Calc
+@node Mfcalc Rules

 @subsection Grammar Rules for @code{mfcalc}
 
 Here are the grammar rules for the multi-function calculator.
 @subsection Grammar Rules for @code{mfcalc}
 
 Here are the grammar rules for the multi-function calculator.


@@ -1492,7 +1733,7 @@ exp:      NUM                @{ $$ = $1;                         @}
 %%
 @end smallexample
 
 %%
 @end smallexample
 

-@node Mfcalc Symtab,  , Mfcalc Rules, Multi-function Calc
+@node Mfcalc Symtab

 @subsection The @code{mfcalc} Symbol Table
 @cindex symbol table example
 
 @subsection The @code{mfcalc} Symbol Table
 @cindex symbol table example
 


@@ -1644,7 +1885,7 @@ the name appears in the table, a pointer to its location and its type
 (@code{VAR} or @code{FNCT}) is returned to @code{yyparse}.  If it is not
 already in the table, then it is installed as a @code{VAR} using
 @code{putsym}.  Again, a pointer and its type (which must be @code{VAR}) is
 (@code{VAR} or @code{FNCT}) is returned to @code{yyparse}.  If it is not
 already in the table, then it is installed as a @code{VAR} using
 @code{putsym}.  Again, a pointer and its type (which must be @code{VAR}) is

-returned to @code{yyparse}.@refill
+returned to @code{yyparse}.

 
 No change is needed in the handling of numeric values and arithmetic
 operators in @code{yylex}.
 
 No change is needed in the handling of numeric values and arithmetic
 operators in @code{yylex}.


@@ -1730,10 +1971,10 @@ yylex (void)
 @end smallexample
 
 This program is both powerful and flexible. You may easily add new
 @end smallexample
 
 This program is both powerful and flexible. You may easily add new

-functions, and it is a simple job to modify this code to install predefined
-variables such as @code{pi} or @code{e} as well.
+functions, and it is a simple job to modify this code to install
+predefined variables such as @code{pi} or @code{e} as well.

 
 

-@node Exercises,  , Multi-function Calc, Examples
+@node Exercises

 @section Exercises
 @cindex exercises
 
 @section Exercises
 @cindex exercises
 


@@ -1751,7 +1992,7 @@ Make the program report an error if the user refers to an
 uninitialized variable in any way except to store a value in it.
 @end enumerate
 
 uninitialized variable in any way except to store a value in it.
 @end enumerate
 

-@node Grammar File, Interface, Examples, Top
+@node Grammar File

 @chapter Bison Grammar Files
 
 Bison takes as input a context-free grammar specification and produces a
 @chapter Bison Grammar Files
 
 Bison takes as input a context-free grammar specification and produces a


@@ -1771,7 +2012,7 @@ The Bison grammar input file conventionally has a name ending in @samp{.y}.
 * Multiple Parsers::  Putting more than one Bison parser in one program.
 @end menu
 
 * Multiple Parsers::  Putting more than one Bison parser in one program.
 @end menu
 

-@node Grammar Outline, Symbols,  , Grammar File
+@node Grammar Outline

 @section Outline of a Bison Grammar
 
 A Bison grammar file has four main sections, shown here with the
 @section Outline of a Bison Grammar
 
 A Bison grammar file has four main sections, shown here with the


@@ -1806,7 +2047,7 @@ Comments enclosed in @samp{/* @dots{} */} may appear in any of the sections.
 @cindex Prologue
 @cindex declarations
 
 @cindex Prologue
 @cindex declarations
 

-The @var{prologue} section contains macro definitions and
+The @var{Prologue} section contains macro definitions and

 declarations of functions and variables that are used in the actions in the
 grammar rules.  These are copied to the beginning of the parser file so
 that they precede the definition of @code{yyparse}.  You can use
 declarations of functions and variables that are used in the actions in the
 grammar rules.  These are copied to the beginning of the parser file so
 that they precede the definition of @code{yyparse}.  You can use


@@ -1814,7 +2055,34 @@ that they precede the definition of @code{yyparse}.  You can use
 need any C declarations, you may omit the @samp{%@{} and @samp{%@}}
 delimiters that bracket this section.
 
 need any C declarations, you may omit the @samp{%@{} and @samp{%@}}
 delimiters that bracket this section.
 

-@node Bison Declarations, Grammar Rules, Prologue, Grammar Outline
+You may have more than one @var{Prologue} section, intermixed with the
+@var{Bison declarations}.  This allows you to have C and Bison
+declarations that refer to each other.  For example, the @code{%union}
+declaration may use types defined in a header file, and you may wish to
+prototype functions that take arguments of type @code{YYSTYPE}.  This
+can be done with two @var{Prologue} blocks, one before and one after the
+@code{%union} declaration.
+
+@smallexample
+%@{
+#include <stdio.h>
+#include "ptypes.h"
+%@}
+
+%union @{
+  long n;
+  tree t;  /* @r{@code{tree} is defined in @file{ptypes.h}.} */
+@}
+
+%@{
+static void yyprint(FILE *, int, YYSTYPE);
+#define YYPRINT(F, N, L) yyprint(F, N, L)
+%@}
+
+@dots{}
+@end smallexample
+
+@node Bison Declarations

 @subsection The Bison Declarations Section
 @cindex Bison declarations (introduction)
 @cindex declarations, Bison (introduction)
 @subsection The Bison Declarations Section
 @cindex Bison declarations (introduction)
 @cindex declarations, Bison (introduction)


@@ -1824,7 +2092,7 @@ terminal and nonterminal symbols, specify precedence, and so on.
 In some simple grammars you may not need any declarations.
 @xref{Declarations, ,Bison Declarations}.
 
 In some simple grammars you may not need any declarations.
 @xref{Declarations, ,Bison Declarations}.
 

-@node Grammar Rules, Epilogue, Bison Declarations, Grammar Outline
+@node Grammar Rules

 @subsection The Grammar Rules Section
 @cindex grammar rules section
 @cindex rules section for grammar
 @subsection The Grammar Rules Section
 @cindex grammar rules section
 @cindex rules section for grammar


@@ -1842,11 +2110,11 @@ if it is the first thing in the file.
 @cindex epilogue
 @cindex C code, section for additional
 
 @cindex epilogue
 @cindex C code, section for additional
 

-The @var{epilogue} is copied verbatim to the end of the parser file, just as 
-the @var{prologue} is copied to the beginning.  This is the most convenient 
-place to put anything that you want to have in the parser file but which need 
-not come before the definition of @code{yyparse}.  For example, the 
-definitions of @code{yylex} and @code{yyerror} often go here.  
+The @var{Epilogue} is copied verbatim to the end of the parser file, just as
+the @var{Prologue} is copied to the beginning.  This is the most convenient
+place to put anything that you want to have in the parser file but which need
+not come before the definition of @code{yyparse}.  For example, the
+definitions of @code{yylex} and @code{yyerror} often go here.

 @xref{Interface, ,Parser C-Language Interface}.
 
 If the last section is empty, you may omit the @samp{%%} that separates it
 @xref{Interface, ,Parser C-Language Interface}.
 
 If the last section is empty, you may omit the @samp{%%} that separates it


@@ -1857,7 +2125,7 @@ with @samp{yy} and many macros whose names start with @samp{YY}.  It is a
 good idea to avoid using any such names (except those documented in this
 manual) in the epilogue of the grammar file.
 
 good idea to avoid using any such names (except those documented in this
 manual) in the epilogue of the grammar file.
 

-@node Symbols, Rules, Grammar Outline, Grammar File
+@node Symbols

 @section Symbols, Terminal and Nonterminal
 @cindex nonterminal symbol
 @cindex terminal symbol
 @section Symbols, Terminal and Nonterminal
 @cindex nonterminal symbol
 @cindex terminal symbol


@@ -1911,7 +2179,7 @@ your program will confuse other readers.
 
 All the usual escape sequences used in character literals in C can be
 used in Bison as well, but you must not use the null character as a
 
 All the usual escape sequences used in character literals in C can be
 used in Bison as well, but you must not use the null character as a

-character literal because its ASCII code, zero, is the code @code{yylex}
+character literal because its numeric code, zero, is the code @code{yylex}

 returns for end-of-input (@pxref{Calling Convention, ,Calling Convention
 for @code{yylex}}).
 
 returns for end-of-input (@pxref{Calling Convention, ,Calling Convention
 for @code{yylex}}).
 


@@ -1952,7 +2220,7 @@ on when the parser function returns that symbol.
 The value returned by @code{yylex} is always one of the terminal symbols
 (or 0 for end-of-input).  Whichever way you write the token type in the
 grammar rules, you write it the same way in the definition of @code{yylex}.
 The value returned by @code{yylex} is always one of the terminal symbols
 (or 0 for end-of-input).  Whichever way you write the token type in the
 grammar rules, you write it the same way in the definition of @code{yylex}.

-The numeric code for a character token type is simply the ASCII code for
+The numeric code for a character token type is simply the numeric code of

 the character, so @code{yylex} can use the identical character constant to
 generate the requisite code.  Each named token type becomes a C macro in
 the parser file, so @code{yylex} can use the name to stand for the code.
 the character, so @code{yylex} can use the identical character constant to
 generate the requisite code.  Each named token type becomes a C macro in
 the parser file, so @code{yylex} can use the name to stand for the code.


@@ -1965,11 +2233,27 @@ option when you run Bison, so that it will write these macro definitions
 into a separate header file @file{@var{name}.tab.h} which you can include
 in the other source files that need it.  @xref{Invocation, ,Invoking Bison}.
 
 into a separate header file @file{@var{name}.tab.h} which you can include
 in the other source files that need it.  @xref{Invocation, ,Invoking Bison}.
 

+The @code{yylex} function must use the same character set and encoding
+that was used by Bison.  For example, if you run Bison in an
+@sc{ascii} environment, but then compile and run the resulting program
+in an environment that uses an incompatible character set like
+@sc{ebcdic}, the resulting program will probably not work because the
+tables generated by Bison will assume @sc{ascii} numeric values for
+character tokens.  Portable grammars should avoid non-@sc{ascii}
+character tokens, as implementations in practice often use different
+and incompatible extensions in this area.  However, it is standard
+practice for software distributions to contain C source files that
+were generated by Bison in an @sc{ascii} environment, so installers on
+platforms that are incompatible with @sc{ascii} must rebuild those
+files before compiling them.
+

 The symbol @code{error} is a terminal symbol reserved for error recovery
 (@pxref{Error Recovery}); you shouldn't use it for any other purpose.
 The symbol @code{error} is a terminal symbol reserved for error recovery
 (@pxref{Error Recovery}); you shouldn't use it for any other purpose.

-In particular, @code{yylex} should never return this value.
+In particular, @code{yylex} should never return this value.  The default
+value of the error token is 256, unless you explicitly assigned 256 to
+one of your tokens with a @code{%token} declaration.

 
 

-@node Rules, Recursion, Symbols, Grammar File
+@node Rules

 @section Syntax of Grammar Rules
 @cindex rule syntax
 @cindex grammar rule syntax
 @section Syntax of Grammar Rules
 @cindex rule syntax
 @cindex grammar rule syntax


@@ -2064,7 +2348,7 @@ expseq1:  exp
 It is customary to write a comment @samp{/* empty */} in each rule
 with no components.
 
 It is customary to write a comment @samp{/* empty */} in each rule
 with no components.
 

-@node Recursion, Semantics, Rules, Grammar File
+@node Recursion

 @section Recursive Rules
 @cindex recursive rule
 
 @section Recursive Rules
 @cindex recursive rule
 


@@ -2098,14 +2382,14 @@ expseq1:  exp
 @end example
 
 @noindent
 @end example
 
 @noindent

-Any kind of sequence can be defined using either left recursion or
-right recursion, but you should always use left recursion, because it
-can parse a sequence of any number of elements with bounded stack
-space.  Right recursion uses up space on the Bison stack in proportion
-to the number of elements in the sequence, because all the elements
-must be shifted onto the stack before the rule can be applied even
-once.  @xref{Algorithm, ,The Bison Parser Algorithm }, for
-further explanation of this.
+Any kind of sequence can be defined using either left recursion or right
+recursion, but you should always use left recursion, because it can
+parse a sequence of any number of elements with bounded stack space.
+Right recursion uses up space on the Bison stack in proportion to the
+number of elements in the sequence, because all the elements must be
+shifted onto the stack before the rule can be applied even once.
+@xref{Algorithm, ,The Bison Parser Algorithm}, for further explanation
+of this.

 
 @cindex mutual recursion
 @dfn{Indirect} or @dfn{mutual} recursion occurs when the result of the
 
 @cindex mutual recursion
 @dfn{Indirect} or @dfn{mutual} recursion occurs when the result of the


@@ -2133,7 +2417,7 @@ primary:  constant
 defines two mutually-recursive nonterminals, since each refers to the
 other.
 
 defines two mutually-recursive nonterminals, since each refers to the
 other.
 

-@node Semantics, Locations, Recursion, Grammar File
+@node Semantics

 @section Defining Language Semantics
 @cindex defining language semantics
 @cindex language semantics, defining
 @section Defining Language Semantics
 @cindex defining language semantics
 @cindex language semantics, defining


@@ -2157,7 +2441,7 @@ the numbers associated with @var{x} and @var{y}.
                         action in the middle of a rule.
 @end menu
 
                         action in the middle of a rule.
 @end menu
 

-@node Value Type, Multiple Types,  , Semantics
+@node Value Type

 @subsection Data Types of Semantic Values
 @cindex semantic value type
 @cindex value type, semantic
 @subsection Data Types of Semantic Values
 @cindex semantic value type
 @cindex value type, semantic


@@ -2166,7 +2450,8 @@ the numbers associated with @var{x} and @var{y}.
 
 In a simple program it may be sufficient to use the same data type for
 the semantic values of all language constructs.  This was true in the
 
 In a simple program it may be sufficient to use the same data type for
 the semantic values of all language constructs.  This was true in the

-RPN and infix calculator examples (@pxref{RPN Calc, ,Reverse Polish Notation Calculator}).
+RPN and infix calculator examples (@pxref{RPN Calc, ,Reverse Polish
+Notation Calculator}).

 
 Bison's default is to use type @code{int} for all semantic values.  To
 specify some other type, define @code{YYSTYPE} as a macro, like this:
 
 Bison's default is to use type @code{int} for all semantic values.  To
 specify some other type, define @code{YYSTYPE} as a macro, like this:


@@ -2176,10 +2461,10 @@ specify some other type, define @code{YYSTYPE} as a macro, like this:
 @end example
 
 @noindent
 @end example
 
 @noindent

-This macro definition must go in the prologue of the grammar file 
+This macro definition must go in the prologue of the grammar file

 (@pxref{Grammar Outline, ,Outline of a Bison Grammar}).
 
 (@pxref{Grammar Outline, ,Outline of a Bison Grammar}).
 

-@node Multiple Types, Actions, Value Type, Semantics
+@node Multiple Types

 @subsection More Than One Value Type
 
 In most programs, you will need different data types for different kinds
 @subsection More Than One Value Type
 
 In most programs, you will need different data types for different kinds


@@ -2193,7 +2478,8 @@ requires you to do two things:
 @itemize @bullet
 @item
 Specify the entire collection of possible data types, with the
 @itemize @bullet
 @item
 Specify the entire collection of possible data types, with the

-@code{%union} Bison declaration (@pxref{Union Decl, ,The Collection of Value Types}).
+@code{%union} Bison declaration (@pxref{Union Decl, ,The Collection of
+Value Types}).

 
 @item
 Choose one of those types for each symbol (terminal or nonterminal) for
 
 @item
 Choose one of those types for each symbol (terminal or nonterminal) for


@@ -2203,7 +2489,7 @@ and for groupings with the @code{%type} Bison declaration (@pxref{Type
 Decl, ,Nonterminal Symbols}).
 @end itemize
 
 Decl, ,Nonterminal Symbols}).
 @end itemize
 

-@node Actions, Action Types, Multiple Types, Semantics
+@node Actions

 @subsection Actions
 @cindex action
 @vindex $$
 @subsection Actions
 @cindex action
 @vindex $$


@@ -2215,10 +2501,11 @@ is to compute a semantic value for the grouping built by the rule from the
 semantic values associated with tokens or smaller groupings.
 
 An action consists of C statements surrounded by braces, much like a
 semantic values associated with tokens or smaller groupings.
 
 An action consists of C statements surrounded by braces, much like a

-compound statement in C.  It can be placed at any position in the rule; it
-is executed at that position.  Most rules have just one action at the end
-of the rule, following all the components.  Actions in the middle of a rule
-are tricky and used only for special purposes (@pxref{Mid-Rule Actions, ,Actions in Mid-Rule}).
+compound statement in C.  It can be placed at any position in the rule;
+it is executed at that position.  Most rules have just one action at the
+end of the rule, following all the components.  Actions in the middle of
+a rule are tricky and used only for special purposes (@pxref{Mid-Rule
+Actions, ,Actions in Mid-Rule}).

 
 The C code in an action can refer to the semantic values of the components
 matched by the rule with the construct @code{$@var{n}}, which stands for
 
 The C code in an action can refer to the semantic values of the components
 matched by the rule with the construct @code{$@var{n}}, which stands for


@@ -2245,7 +2532,19 @@ which are the first and third symbols on the right hand side of the rule.
 The sum is stored into @code{$$} so that it becomes the semantic value of
 the addition-expression just recognized by the rule.  If there were a
 useful semantic value associated with the @samp{+} token, it could be
 The sum is stored into @code{$$} so that it becomes the semantic value of
 the addition-expression just recognized by the rule.  If there were a
 useful semantic value associated with the @samp{+} token, it could be

-referred to as @code{$2}.@refill
+referred to as @code{$2}.
+
+Note that the vertical-bar character @samp{|} is really a rule
+separator, and actions are attached to a single rule.  This is a
+difference with tools like Flex, for which @samp{|} stands for either
+``or'', or ``the same action as that of the next rule''.  In the
+following example, the action is triggered only when @samp{b} is found:
+
+@example
+@group
+a-or-b: 'a'|'b'   @{ a_or_b_found = 1; @};
+@end group
+@end example

 
 @cindex default action
 If you don't specify an action for a rule, Bison supplies a default:
 
 @cindex default action
 If you don't specify an action for a rule, Bison supplies a default:


@@ -2279,7 +2578,7 @@ As long as @code{bar} is used only in the fashion shown here, @code{$0}
 always refers to the @code{expr} which precedes @code{bar} in the
 definition of @code{foo}.
 
 always refers to the @code{expr} which precedes @code{bar} in the
 definition of @code{foo}.
 

-@node Action Types, Mid-Rule Actions, Actions, Semantics
+@node Action Types

 @subsection Data Types of Values in Actions
 @cindex action data types
 @cindex data types in actions
 @subsection Data Types of Values in Actions
 @cindex action data types
 @cindex data types in actions


@@ -2291,7 +2590,7 @@ If you have used @code{%union} to specify a variety of data types, then you
 must declare a choice among these types for each terminal or nonterminal
 symbol that can have a semantic value.  Then each time you use @code{$$} or
 @code{$@var{n}}, its data type is determined by which symbol it refers to
 must declare a choice among these types for each terminal or nonterminal
 symbol that can have a semantic value.  Then each time you use @code{$$} or
 @code{$@var{n}}, its data type is determined by which symbol it refers to

-in the rule.  In this example,@refill
+in the rule.  In this example,

 
 @example
 @group
 
 @example
 @group


@@ -2305,7 +2604,7 @@ exp:    @dots{}
 @code{$1} and @code{$3} refer to instances of @code{exp}, so they all
 have the data type declared for the nonterminal symbol @code{exp}.  If
 @code{$2} were used, it would have the data type declared for the
 @code{$1} and @code{$3} refer to instances of @code{exp}, so they all
 have the data type declared for the nonterminal symbol @code{exp}.  If
 @code{$2} were used, it would have the data type declared for the

-terminal symbol @code{'+'}, whatever that might be.@refill
+terminal symbol @code{'+'}, whatever that might be.

 
 Alternatively, you can specify the data type when you refer to the value,
 by inserting @samp{<@var{type}>} after the @samp{$} at the beginning of the
 
 Alternatively, you can specify the data type when you refer to the value,
 by inserting @samp{<@var{type}>} after the @samp{$} at the beginning of the


@@ -2324,7 +2623,7 @@ reference.  For example, if you have defined types as shown here:
 then you can write @code{$<itype>1} to refer to the first subunit of the
 rule as an integer, or @code{$<dtype>1} to refer to it as a double.
 
 then you can write @code{$<itype>1} to refer to the first subunit of the
 rule as an integer, or @code{$<dtype>1} to refer to it as a double.
 

-@node Mid-Rule Actions,  , Action Types, Semantics
+@node Mid-Rule Actions

 @subsection Actions in Mid-Rule
 @cindex actions in mid-rule
 @cindex mid-rule actions
 @subsection Actions in Mid-Rule
 @cindex actions in mid-rule
 @cindex mid-rule actions


@@ -2486,7 +2785,7 @@ the action is now at the end of its rule.  Any mid-rule action can be
 converted to an end-of-rule action in this way, and this is what Bison
 actually does to implement mid-rule actions.
 
 converted to an end-of-rule action in this way, and this is what Bison
 actually does to implement mid-rule actions.
 

-@node Locations, Declarations, Semantics, Grammar File
+@node Locations

 @section Tracking Locations
 @cindex location
 @cindex textual position
 @section Tracking Locations
 @cindex location
 @cindex textual position


@@ -2498,8 +2797,8 @@ especially symbol locations.
 
 @c (terminal or not) ?
 
 
 @c (terminal or not) ?
 

-The way locations are handled is defined by providing a data type, and actions
-to take when rules are matched.
+The way locations are handled is defined by providing a data type, and
+actions to take when rules are matched.

 
 @menu
 * Location Type::               Specifying a data type for locations.
 
 @menu
 * Location Type::               Specifying a data type for locations.


@@ -2507,7 +2806,7 @@ to take when rules are matched.
 * Location Default Action::     Defining a general way to compute locations.
 @end menu
 
 * Location Default Action::     Defining a general way to compute locations.
 @end menu
 

-@node Location Type, Actions and Locations,  , Locations
+@node Location Type

 @subsection Data Type of Locations
 @cindex data type of locations
 @cindex default location type
 @subsection Data Type of Locations
 @cindex data type of locations
 @cindex default location type


@@ -2529,7 +2828,7 @@ struct
 @}
 @end example
 
 @}
 @end example
 

-@node Actions and Locations, Location Default Action, Location Type, Locations
+@node Actions and Locations

 @subsection Actions and Locations
 @cindex location actions
 @cindex actions, location
 @subsection Actions and Locations
 @cindex location actions
 @cindex actions, location


@@ -2596,15 +2895,15 @@ exp:    @dots{}
 @end group
 @end example
 
 @end group
 @end example
 

-@node Location Default Action,  , Actions and Locations, Locations
+@node Location Default Action

 @subsection Default Action for Locations
 @vindex YYLLOC_DEFAULT
 
 @subsection Default Action for Locations
 @vindex YYLLOC_DEFAULT
 

-Actually, actions are not the best place to compute locations. Since locations
-are much more general than semantic values, there is room in the output parser
-to redefine the default action to take for each rule. The
-@code{YYLLOC_DEFAULT} macro is called each time a rule is matched, before the
-associated action is run.
+Actually, actions are not the best place to compute locations. Since
+locations are much more general than semantic values, there is room in
+the output parser to redefine the default action to take for each
+rule. The @code{YYLLOC_DEFAULT} macro is invoked each time a rule is
+matched, before the associated action is run.

 
 Most of the time, this macro is general enough to suppress location
 dedicated code from semantic actions.
 
 Most of the time, this macro is general enough to suppress location
 dedicated code from semantic actions.


@@ -2618,9 +2917,11 @@ By default, it is defined this way:
 
 @example
 @group
 
 @example
 @group

-#define YYLLOC_DEFAULT(Current, Rhs, N)         \
-  Current.last_line   = Rhs[N].last_line;       \
-  Current.last_column = Rhs[N].last_column;
+#define YYLLOC_DEFAULT(Current, Rhs, N)          \
+  Current.first_line   = Rhs[1].first_line;      \
+  Current.first_column = Rhs[1].first_column;    \
+  Current.last_line    = Rhs[N].last_line;       \
+  Current.last_column  = Rhs[N].last_column;

 @end group
 @end example
 
 @end group
 @end example
 


@@ -2632,15 +2933,11 @@ All arguments are free of side-effects. However, only the first one (the
 result) should be modified by @code{YYLLOC_DEFAULT}.
 
 @item
 result) should be modified by @code{YYLLOC_DEFAULT}.
 
 @item

-Before @code{YYLLOC_DEFAULT} is executed, the output parser sets @code{@@$}
-to @code{@@1}.
-
-@item
-For consistency with semantic actions, valid indexes for the location array
-range from 1 to @var{n}.
+For consistency with semantic actions, valid indexes for the location
+array range from 1 to @var{n}.

 @end itemize
 
 @end itemize
 

-@node Declarations, Multiple Parsers, Locations, Grammar File
+@node Declarations

 @section Bison Declarations
 @cindex declarations, Bison
 @cindex Bison declarations
 @section Bison Declarations
 @cindex declarations, Bison
 @cindex Bison declarations


@@ -2656,7 +2953,8 @@ value (@pxref{Multiple Types, ,More Than One Value Type}).
 
 The first rule in the file also specifies the start symbol, by default.
 If you want some other symbol to be the start symbol, you must declare
 
 The first rule in the file also specifies the start symbol, by default.
 If you want some other symbol to be the start symbol, you must declare

-it explicitly (@pxref{Language and Grammar, ,Languages and Context-Free Grammars}).
+it explicitly (@pxref{Language and Grammar, ,Languages and Context-Free
+Grammars}).

 
 @menu
 * Token Decl::        Declaring terminal symbols.
 
 @menu
 * Token Decl::        Declaring terminal symbols.


@@ -2669,7 +2967,7 @@ it explicitly (@pxref{Language and Grammar, ,Languages and Context-Free Grammars
 * Decl Summary::      Table of all Bison declarations.
 @end menu
 
 * Decl Summary::      Table of all Bison declarations.
 @end menu
 

-@node Token Decl, Precedence Decl,  , Declarations
+@node Token Decl

 @subsection Token Type Names
 @cindex declaring token type names
 @cindex token type names, declaring
 @subsection Token Type Names
 @cindex declaring token type names
 @cindex token type names, declaring


@@ -2701,11 +2999,12 @@ an integer value in the field immediately following the token name:
 @noindent
 It is generally best, however, to let Bison choose the numeric codes for
 all token types.  Bison will automatically select codes that don't conflict
 @noindent
 It is generally best, however, to let Bison choose the numeric codes for
 all token types.  Bison will automatically select codes that don't conflict

-with each other or with ASCII characters.
+with each other or with normal characters.

 
 In the event that the stack type is a union, you must augment the
 @code{%token} or other token declaration to include the data type
 
 In the event that the stack type is a union, you must augment the
 @code{%token} or other token declaration to include the data type

-alternative delimited by angle-brackets (@pxref{Multiple Types, ,More Than One Value Type}).
+alternative delimited by angle-brackets (@pxref{Multiple Types, ,More
+Than One Value Type}).

 
 For example:
 
 
 For example:
 


@@ -2743,7 +3042,7 @@ interchangeably in further declarations or the grammar rules.  The
 @code{yylex} function can use the token name or the literal string to
 obtain the token type code number (@pxref{Calling Convention}).
 
 @code{yylex} function can use the token name or the literal string to
 obtain the token type code number (@pxref{Calling Convention}).
 

-@node Precedence Decl, Union Decl, Token Decl, Declarations
+@node Precedence Decl

 @subsection Operator Precedence
 @cindex precedence declarations
 @cindex declaring operator precedence
 @subsection Operator Precedence
 @cindex precedence declarations
 @cindex declaring operator precedence


@@ -2752,7 +3051,8 @@ obtain the token type code number (@pxref{Calling Convention}).
 Use the @code{%left}, @code{%right} or @code{%nonassoc} declaration to
 declare a token and specify its precedence and associativity, all at
 once.  These are called @dfn{precedence declarations}.
 Use the @code{%left}, @code{%right} or @code{%nonassoc} declaration to
 declare a token and specify its precedence and associativity, all at
 once.  These are called @dfn{precedence declarations}.

-@xref{Precedence, ,Operator Precedence}, for general information on operator precedence.
+@xref{Precedence, ,Operator Precedence}, for general information on
+operator precedence.

 
 The syntax of a precedence declaration is the same as that of
 @code{%token}: either
 
 The syntax of a precedence declaration is the same as that of
 @code{%token}: either


@@ -2792,7 +3092,7 @@ When two tokens declared in different precedence declarations associate,
 the one declared later has the higher precedence and is grouped first.
 @end itemize
 
 the one declared later has the higher precedence and is grouped first.
 @end itemize
 

-@node Union Decl, Type Decl, Precedence Decl, Declarations
+@node Union Decl

 @subsection The Collection of Value Types
 @cindex declaring value types
 @cindex value types, declaring
 @subsection The Collection of Value Types
 @cindex declaring value types
 @cindex value types, declaring


@@ -2823,7 +3123,7 @@ for a terminal or nonterminal symbol (@pxref{Type Decl, ,Nonterminal Symbols}).
 Note that, unlike making a @code{union} declaration in C, you do not write
 a semicolon after the closing brace.
 
 Note that, unlike making a @code{union} declaration in C, you do not write
 a semicolon after the closing brace.
 

-@node Type Decl, Expect Decl, Union Decl, Declarations
+@node Type Decl

 @subsection Nonterminal Symbols
 @cindex declaring value types, nonterminals
 @cindex value types, nonterminals, declaring
 @subsection Nonterminal Symbols
 @cindex declaring value types, nonterminals
 @cindex value types, nonterminals, declaring


@@ -2839,18 +3139,19 @@ used.  This is done with a @code{%type} declaration, like this:
 @end example
 
 @noindent
 @end example
 
 @noindent

-Here @var{nonterminal} is the name of a nonterminal symbol, and @var{type}
-is the name given in the @code{%union} to the alternative that you want
-(@pxref{Union Decl, ,The Collection of Value Types}).  You can give any number of nonterminal symbols in
-the same @code{%type} declaration, if they have the same value type.  Use
-spaces to separate the symbol names.
+Here @var{nonterminal} is the name of a nonterminal symbol, and
+@var{type} is the name given in the @code{%union} to the alternative
+that you want (@pxref{Union Decl, ,The Collection of Value Types}).  You
+can give any number of nonterminal symbols in the same @code{%type}
+declaration, if they have the same value type.  Use spaces to separate
+the symbol names.

 
 You can also declare the value type of a terminal symbol.  To do this,
 use the same @code{<@var{type}>} construction in a declaration for the
 terminal symbol.  All kinds of token declarations allow
 @code{<@var{type}>}.
 
 
 You can also declare the value type of a terminal symbol.  To do this,
 use the same @code{<@var{type}>} construction in a declaration for the
 terminal symbol.  All kinds of token declarations allow
 @code{<@var{type}>}.
 

-@node Expect Decl, Start Decl, Type Decl, Declarations
+@node Expect Decl

 @subsection Suppressing Conflict Warnings
 @cindex suppressing conflict warnings
 @cindex preventing warnings about conflicts
 @subsection Suppressing Conflict Warnings
 @cindex suppressing conflict warnings
 @cindex preventing warnings about conflicts


@@ -2859,11 +3160,11 @@ terminal symbol.  All kinds of token declarations allow
 @findex %expect
 
 Bison normally warns if there are any conflicts in the grammar
 @findex %expect
 
 Bison normally warns if there are any conflicts in the grammar

-(@pxref{Shift/Reduce, ,Shift/Reduce Conflicts}), but most real grammars have harmless shift/reduce
-conflicts which are resolved in a predictable way and would be difficult to
-eliminate.  It is desirable to suppress the warning about these conflicts
-unless the number of conflicts changes.  You can do this with the
-@code{%expect} declaration.
+(@pxref{Shift/Reduce, ,Shift/Reduce Conflicts}), but most real grammars
+have harmless shift/reduce conflicts which are resolved in a predictable
+way and would be difficult to eliminate.  It is desirable to suppress
+the warning about these conflicts unless the number of conflicts
+changes.  You can do this with the @code{%expect} declaration.

 
 The declaration looks like this:
 
 
 The declaration looks like this:
 


@@ -2871,10 +3172,11 @@ The declaration looks like this:
 %expect @var{n}
 @end example
 
 %expect @var{n}
 @end example
 

-Here @var{n} is a decimal integer.  The declaration says there should be no
-warning if there are @var{n} shift/reduce conflicts and no reduce/reduce
-conflicts.  The usual warning is given if there are either more or fewer
-conflicts, or if there are any reduce/reduce conflicts.
+Here @var{n} is a decimal integer.  The declaration says there should be
+no warning if there are @var{n} shift/reduce conflicts and no
+reduce/reduce conflicts.  An error, instead of the usual warning, is
+given if there are either more or fewer conflicts, or if there are any
+reduce/reduce conflicts.

 
 In general, using @code{%expect} involves these steps:
 
 
 In general, using @code{%expect} involves these steps:
 


@@ -2898,7 +3200,7 @@ Now Bison will stop annoying you about the conflicts you have checked, but
 it will warn you again if changes in the grammar result in additional
 conflicts.
 
 it will warn you again if changes in the grammar result in additional
 conflicts.
 

-@node Start Decl, Pure Decl, Expect Decl, Declarations
+@node Start Decl

 @subsection The Start-Symbol
 @cindex declaring the start symbol
 @cindex start symbol, declaring
 @subsection The Start-Symbol
 @cindex declaring the start symbol
 @cindex start symbol, declaring


@@ -2913,11 +3215,11 @@ may override this restriction with the @code{%start} declaration as follows:
 %start @var{symbol}
 @end example
 
 %start @var{symbol}
 @end example
 

-@node Pure Decl, Decl Summary, Start Decl, Declarations
+@node Pure Decl

 @subsection A Pure (Reentrant) Parser
 @cindex reentrant parser
 @cindex pure parser
 @subsection A Pure (Reentrant) Parser
 @cindex reentrant parser
 @cindex pure parser

-@findex %pure_parser
+@findex %pure-parser

 
 A @dfn{reentrant} program is one which does not alter in the course of
 execution; in other words, it consists entirely of @dfn{pure} (read-only)
 
 A @dfn{reentrant} program is one which does not alter in the course of
 execution; in other words, it consists entirely of @dfn{pure} (read-only)


@@ -2933,11 +3235,11 @@ statically allocated variables for communication with @code{yylex},
 including @code{yylval} and @code{yylloc}.)
 
 Alternatively, you can generate a pure, reentrant parser.  The Bison
 including @code{yylval} and @code{yylloc}.)
 
 Alternatively, you can generate a pure, reentrant parser.  The Bison

-declaration @code{%pure_parser} says that you want the parser to be
+declaration @code{%pure-parser} says that you want the parser to be

 reentrant.  It looks like this:
 
 @example
 reentrant.  It looks like this:
 
 @example

-%pure_parser
+%pure-parser

 @end example
 
 The result is that the communication variables @code{yylval} and
 @end example
 
 The result is that the communication variables @code{yylval} and


@@ -2953,13 +3255,13 @@ Whether the parser is pure has nothing to do with the grammar rules.
 You can generate either a pure parser or a nonreentrant parser from any
 valid grammar.
 
 You can generate either a pure parser or a nonreentrant parser from any
 valid grammar.
 

-@node Decl Summary,  , Pure Decl, Declarations
+@node Decl Summary

 @subsection Bison Declaration Summary
 @cindex Bison declaration summary
 @cindex declaration summary
 @cindex summary, Bison declaration
 
 @subsection Bison Declaration Summary
 @cindex Bison declaration summary
 @cindex declaration summary
 @cindex summary, Bison declaration
 

-Here is a summary of all Bison declarations:
+Here is a summary of the declarations used to define a grammar:

 
 @table @code
 @item %union
 
 @table @code
 @item %union


@@ -2994,11 +3296,43 @@ Start-Symbol}).
 @item %expect
 Declare the expected number of shift-reduce conflicts
 (@pxref{Expect Decl, ,Suppressing Conflict Warnings}).
 @item %expect
 Declare the expected number of shift-reduce conflicts
 (@pxref{Expect Decl, ,Suppressing Conflict Warnings}).

+@end table

 
 

-@item %yacc
-@itemx %fixed_output_files
-Pretend the option @option{--yacc} was given, i.e., imitate Yacc,
-including its naming conventions.  @xref{Bison Options}, for more.
+@sp 1
+@noindent
+In order to change the behavior of @command{bison}, use the following
+directives:
+
+@table @code
+@item %debug
+In the parser file, define the macro @code{YYDEBUG} to 1 if it is not
+already defined, so that the debugging facilities are compiled.
+@xref{Tracing, ,Tracing Your Parser}.
+
+@item %defines
+Write an extra output file containing macro definitions for the token
+type names defined in the grammar and the semantic value type
+@code{YYSTYPE}, as well as a few @code{extern} variable declarations.
+
+If the parser output file is named @file{@var{name}.c} then this file
+is named @file{@var{name}.h}.
+
+This output file is essential if you wish to put the definition of
+@code{yylex} in a separate source file, because @code{yylex} needs to
+be able to refer to token type codes and the variable
+@code{yylval}.  @xref{Token Values, ,Semantic Values of Tokens}.
+
+@item %file-prefix="@var{prefix}"
+Specify a prefix to use for all Bison output file names.  The names are
+chosen as if the input file were named @file{@var{prefix}.y}.
+
+@c @item %header-extension
+@c Specify the extension of the parser header file generated when
+@c @code{%define} or @samp{-d} are used.
+@c
+@c For example, a grammar file named @file{foo.ypp} and containing a
+@c @code{%header-extension .hh} directive will produce a header file
+@c named @file{foo.tab.hh}

 
 @item %locations
 Generate the code processing the locations (@pxref{Action Features,
 
 @item %locations
 Generate the code processing the locations (@pxref{Action Features,


@@ -3007,11 +3341,16 @@ the grammar uses the special @samp{@@@var{n}} tokens, but if your
 grammar does not use it, using @samp{%locations} allows for more
 accurate parse error messages.
 
 grammar does not use it, using @samp{%locations} allows for more
 accurate parse error messages.
 

-@item %pure_parser
-Request a pure (reentrant) parser program (@pxref{Pure Decl, ,A Pure
-(Reentrant) Parser}).
+@item %name-prefix="@var{prefix}"
+Rename the external symbols used in the parser so that they start with
+@var{prefix} instead of @samp{yy}.  The precise list of symbols renamed
+is @code{yyparse}, @code{yylex}, @code{yyerror}, @code{yynerrs},
+@code{yylval}, @code{yychar}, @code{yydebug}, and possible
+@code{yylloc}.  For example, if you use @samp{%name-prefix="c_"}, the
+names become @code{c_parse}, @code{c_lex}, and so on.  @xref{Multiple
+Parsers, ,Multiple Parsers in the Same Program}.

 
 

-@item %no_parser
+@item %no-parser

 Do not include any C code in the parser file; generate tables only.  The
 parser file contains just @code{#define} directives and static variable
 declarations.
 Do not include any C code in the parser file; generate tables only.  The
 parser file contains just @code{#define} directives and static variable
 declarations.


@@ -3020,7 +3359,7 @@ This option also tells Bison to write the C code for the grammar actions
 into a file named @file{@var{filename}.act}, in the form of a
 brace-surrounded body fit for a @code{switch} statement.
 
 into a file named @file{@var{filename}.act}, in the form of a
 brace-surrounded body fit for a @code{switch} statement.
 

-@item %no_lines
+@item %no-lines

 Don't generate any @code{#line} preprocessor commands in the parser
 file.  Ordinarily Bison writes these commands in the parser file so that
 the C compiler and debuggers will associate errors and object code with
 Don't generate any @code{#line} preprocessor commands in the parser
 file.  Ordinarily Bison writes these commands in the parser file so that
 the C compiler and debuggers will associate errors and object code with


@@ -3028,55 +3367,21 @@ your source file (the grammar file).  This directive causes them to
 associate errors with the parser file, treating it an independent source
 file in its own right.
 
 associate errors with the parser file, treating it an independent source
 file in its own right.
 

-@item %debug
-Output a definition of the macro @code{YYDEBUG} into the parser file, so
-that the debugging facilities are compiled.  @xref{Debugging, ,Debugging
-Your Parser}.
-
-@item %defines
-Write an extra output file containing macro definitions for the token
-type names defined in the grammar and the semantic value type
-@code{YYSTYPE}, as well as a few @code{extern} variable declarations.
-
-If the parser output file is named @file{@var{name}.c} then this file
-is named @file{@var{name}.h}.@refill
+@item %output="@var{filename}"
+Specify the @var{filename} for the parser file.

 
 

-This output file is essential if you wish to put the definition of
-@code{yylex} in a separate source file, because @code{yylex} needs to
-be able to refer to token type codes and the variable
-@code{yylval}.  @xref{Token Values, ,Semantic Values of Tokens}.@refill
+@item %pure-parser
+Request a pure (reentrant) parser program (@pxref{Pure Decl, ,A Pure
+(Reentrant) Parser}).

 
 

-@c @item %source_extension
+@c @item %source-extension

 @c Specify the extension of the parser output file.
 @c
 @c For example, a grammar file named @file{foo.yy} and containing a
 @c Specify the extension of the parser output file.
 @c
 @c For example, a grammar file named @file{foo.yy} and containing a

-@c @code{%source_extension .cpp} directive will produce a parser file
+@c @code{%source-extension .cpp} directive will produce a parser file

 @c named @file{foo.tab.cpp}
 @c named @file{foo.tab.cpp}

-@c
-@c @item %header_extension
-@c Specify the extension of the parser header file generated when
-@c @code{%define} or @samp{-d} are used.
-@c
-@c For example, a garmmar file named @file{foo.ypp} and containing a
-@c @code{%header_extension .hh} directive will produce a header file
-@c named @file{foo.tab.hh}
-
-@item %verbose
-Write an extra output file containing verbose descriptions of the
-parser states and what is done for each type of look-ahead token in
-that state.
-
-This file also describes all the conflicts, both those resolved by
-operator precedence and the unresolved ones.
-
-The file's name is made by removing @samp{.tab.c} or @samp{.c} from
-the parser output file name, and adding @samp{.output} instead.@refill
-
-Therefore, if the input file is @file{foo.y}, then the parser file is
-called @file{foo.tab.c} by default.  As a consequence, the verbose
-output file is called @file{foo.output}.@refill

 
 

-@item %token_table
+@item %token-table

 Generate an array of token names in the parser file.  The name of the
 array is @code{yytname}; @code{yytname[@var{i}]} is the name of the
 token whose internal Bison token code number is @var{i}.  The first three
 Generate an array of token names in the parser file.  The name of the
 array is @code{yytname}; @code{yytname[@var{i}]} is the name of the
 token whose internal Bison token code number is @var{i}.  The first three


@@ -3094,7 +3399,7 @@ consists of three characters @samp{*"*}, its string in @code{yytname}
 contains @samp{"*"*"}.  (In C, that would be written as
 @code{"\"*\"*\""}).
 
 contains @samp{"*"*"}.  (In C, that would be written as
 @code{"\"*\"*\""}).
 

-When you specify @code{%token_table}, Bison also generates macro
+When you specify @code{%token-table}, Bison also generates macro

 definitions for macros @code{YYNTOKENS}, @code{YYNNTS}, and
 @code{YYNRULES}, and @code{YYNSTATES}:
 
 definitions for macros @code{YYNTOKENS}, @code{YYNNTS}, and
 @code{YYNRULES}, and @code{YYNSTATES}:
 


@@ -3108,9 +3413,24 @@ The number of grammar rules,
 @item YYNSTATES
 The number of parser states (@pxref{Parser States}).
 @end table
 @item YYNSTATES
 The number of parser states (@pxref{Parser States}).
 @end table

+
+@item %verbose
+Write an extra output file containing verbose descriptions of the
+parser states and what is done for each type of look-ahead token in
+that state. @xref{Understanding, , Understanding Your Parser}, for more
+information.
+
+
+
+@item %yacc
+Pretend the option @option{--yacc} was given, i.e., imitate Yacc,
+including its naming conventions.  @xref{Bison Options}, for more.

 @end table
 
 @end table
 

-@node Multiple Parsers,, Declarations, Grammar File
+
+
+
+@node Multiple Parsers

 @section Multiple Parsers in the Same Program
 
 Most programs that use Bison parse only one language and therefore contain
 @section Multiple Parsers in the Same Program
 
 Most programs that use Bison parse only one language and therefore contain


@@ -3119,10 +3439,10 @@ language with the same program?  Then you need to avoid a name conflict
 between different definitions of @code{yyparse}, @code{yylval}, and so on.
 
 The easy way to do this is to use the option @samp{-p @var{prefix}}
 between different definitions of @code{yyparse}, @code{yylval}, and so on.
 
 The easy way to do this is to use the option @samp{-p @var{prefix}}

-(@pxref{Invocation, ,Invoking Bison}).  This renames the interface functions and
-variables of the Bison parser to start with @var{prefix} instead of
-@samp{yy}.  You can use this to give each parser distinct names that do
-not conflict.
+(@pxref{Invocation, ,Invoking Bison}).  This renames the interface
+functions and variables of the Bison parser to start with @var{prefix}
+instead of @samp{yy}.  You can use this to give each parser distinct
+names that do not conflict.

 
 The precise list of symbols renamed is @code{yyparse}, @code{yylex},
 @code{yyerror}, @code{yynerrs}, @code{yylval}, @code{yychar} and
 
 The precise list of symbols renamed is @code{yyparse}, @code{yylex},
 @code{yyerror}, @code{yynerrs}, @code{yylval}, @code{yychar} and


@@ -3140,7 +3460,7 @@ of the parser source file, defining @code{yyparse} as
 @code{@var{prefix}parse}, and so on.  This effectively substitutes one
 name for the other in the entire parser file.
 
 @code{@var{prefix}parse}, and so on.  This effectively substitutes one
 name for the other in the entire parser file.
 

-@node Interface, Algorithm, Grammar File, Top
+@node Interface

 @chapter Parser C-Language Interface
 @cindex C-language interface
 @cindex interface
 @chapter Parser C-Language Interface
 @cindex C-language interface
 @cindex interface


@@ -3162,7 +3482,7 @@ in the grammar file, you are likely to run into trouble.
 * Action Features::   Special features for use in actions.
 @end menu
 
 * Action Features::   Special features for use in actions.
 @end menu
 

-@node Parser Function, Lexical,  , Interface
+@node Parser Function

 @section The Parser Function @code{yyparse}
 @findex yyparse
 
 @section The Parser Function @code{yyparse}
 @findex yyparse
 


@@ -3190,7 +3510,7 @@ Return immediately with value 0 (to report success).
 Return immediately with value 1 (to report failure).
 @end table
 
 Return immediately with value 1 (to report failure).
 @end table
 

-@node Lexical, Error Reporting, Parser Function, Interface
+@node Lexical

 @section The Lexical Analyzer Function @code{yylex}
 @findex yylex
 @cindex lexical analyzer
 @section The Lexical Analyzer Function @code{yylex}
 @findex yylex
 @cindex lexical analyzer


@@ -3206,7 +3526,7 @@ need to arrange for the token-type macro definitions to be available there.
 To do this, use the @samp{-d} option when you run Bison, so that it will
 write these macro definitions into a separate header file
 @file{@var{name}.tab.h} which you can include in the other source files
 To do this, use the @samp{-d} option when you run Bison, so that it will
 write these macro definitions into a separate header file
 @file{@var{name}.tab.h} which you can include in the other source files

-that need it.  @xref{Invocation, ,Invoking Bison}.@refill
+that need it.  @xref{Invocation, ,Invoking Bison}.

 
 @menu
 * Calling Convention::  How @code{yyparse} calls @code{yylex}.
 
 @menu
 * Calling Convention::  How @code{yyparse} calls @code{yylex}.


@@ -3219,7 +3539,7 @@ that need it.  @xref{Invocation, ,Invoking Bison}.@refill
                         in a pure parser (@pxref{Pure Decl, ,A Pure (Reentrant) Parser}).
 @end menu
 
                         in a pure parser (@pxref{Pure Decl, ,A Pure (Reentrant) Parser}).
 @end menu
 

-@node Calling Convention, Token Values,  , Lexical
+@node Calling Convention

 @subsection Calling Convention for @code{yylex}
 
 The value that @code{yylex} returns must be the numeric code for the type
 @subsection Calling Convention for @code{yylex}
 
 The value that @code{yylex} returns must be the numeric code for the type


@@ -3293,10 +3613,10 @@ for (i = 0; i < YYNTOKENS; i++)
 @end smallexample
 
 The @code{yytname} table is generated only if you use the
 @end smallexample
 
 The @code{yytname} table is generated only if you use the

-@code{%token_table} declaration.  @xref{Decl Summary}.
+@code{%token-table} declaration.  @xref{Decl Summary}.

 @end itemize
 
 @end itemize
 

-@node Token Values, Token Positions, Calling Convention, Lexical
+@node Token Values

 @subsection Semantic Values of Tokens
 
 @vindex yylval
 @subsection Semantic Values of Tokens
 
 @vindex yylval


@@ -3316,9 +3636,10 @@ Thus, if the type is @code{int} (the default), you might write this in
 @end example
 
 When you are using multiple data types, @code{yylval}'s type is a union
 @end example
 
 When you are using multiple data types, @code{yylval}'s type is a union

-made from the @code{%union} declaration (@pxref{Union Decl, ,The Collection of Value Types}).  So when
-you store a token's value, you must use the proper member of the union.
-If the @code{%union} declaration looks like this:
+made from the @code{%union} declaration (@pxref{Union Decl, ,The
+Collection of Value Types}).  So when you store a token's value, you
+must use the proper member of the union.  If the @code{%union}
+declaration looks like this:

 
 @example
 @group
 
 @example
 @group


@@ -3342,7 +3663,7 @@ then the code in @code{yylex} might look like this:
 @end group
 @end example
 
 @end group
 @end example
 

-@node Token Positions, Pure Calling, Token Values, Lexical
+@node Token Positions

 @subsection Textual Positions of Tokens
 
 @vindex yylloc
 @subsection Textual Positions of Tokens
 
 @vindex yylloc


@@ -3363,10 +3684,10 @@ feature makes the parser noticeably slower.
 @tindex YYLTYPE
 The data type of @code{yylloc} has the name @code{YYLTYPE}.
 
 @tindex YYLTYPE
 The data type of @code{yylloc} has the name @code{YYLTYPE}.
 

-@node Pure Calling,  , Token Positions, Lexical
+@node Pure Calling

 @subsection Calling Conventions for Pure Parsers
 
 @subsection Calling Conventions for Pure Parsers
 

-When you use the Bison declaration @code{%pure_parser} to request a
+When you use the Bison declaration @code{%pure-parser} to request a

 pure, reentrant parser, the global communication variables @code{yylval}
 and @code{yylloc} cannot be used.  (@xref{Pure Decl, ,A Pure (Reentrant)
 Parser}.)  In such parsers the two global variables are replaced by
 pure, reentrant parser, the global communication variables @code{yylval}
 and @code{yylloc} cannot be used.  (@xref{Pure Decl, ,A Pure (Reentrant)
 Parser}.)  In such parsers the two global variables are replaced by


@@ -3466,11 +3787,11 @@ arguments in total, depending on whether an argument of type
 the proper object type, or you can declare it as @code{void *} and
 access the contents as shown above.
 
 the proper object type, or you can declare it as @code{void *} and
 access the contents as shown above.
 

-You can use @samp{%pure_parser} to request a reentrant parser without
+You can use @samp{%pure-parser} to request a reentrant parser without

 also using @code{YYPARSE_PARAM}.  Then you should call @code{yyparse}
 with no arguments, as usual.
 
 also using @code{YYPARSE_PARAM}.  Then you should call @code{yyparse}
 with no arguments, as usual.
 

-@node Error Reporting, Action Features, Lexical, Interface
+@node Error Reporting

 @section The Error Reporting Function @code{yyerror}
 @cindex error reporting function
 @findex yyerror
 @section The Error Reporting Function @code{yyerror}
 @cindex error reporting function
 @findex yyerror


@@ -3527,10 +3848,10 @@ immediately return 1.
 @vindex yynerrs
 The variable @code{yynerrs} contains the number of syntax errors
 encountered so far.  Normally this variable is global; but if you
 @vindex yynerrs
 The variable @code{yynerrs} contains the number of syntax errors
 encountered so far.  Normally this variable is global; but if you

-request a pure parser (@pxref{Pure Decl, ,A Pure (Reentrant) Parser}) then it is a local variable
-which only the actions can access.
+request a pure parser (@pxref{Pure Decl, ,A Pure (Reentrant) Parser})
+then it is a local variable which only the actions can access.

 
 

-@node Action Features,  , Error Reporting, Interface
+@node Action Features

 @section Special Features for Use in Actions
 @cindex summary, action features
 @cindex action features summary
 @section Special Features for Use in Actions
 @cindex summary, action features
 @cindex action features summary


@@ -3549,12 +3870,13 @@ Acts like a variable that contains the semantic value for the
 
 @item $<@var{typealt}>$
 Like @code{$$} but specifies alternative @var{typealt} in the union
 
 @item $<@var{typealt}>$
 Like @code{$$} but specifies alternative @var{typealt} in the union

-specified by the @code{%union} declaration.  @xref{Action Types, ,Data Types of Values in Actions}.
+specified by the @code{%union} declaration.  @xref{Action Types, ,Data
+Types of Values in Actions}.

 
 @item $<@var{typealt}>@var{n}
 Like @code{$@var{n}} but specifies alternative @var{typealt} in the
 union specified by the @code{%union} declaration.
 
 @item $<@var{typealt}>@var{n}
 Like @code{$@var{n}} but specifies alternative @var{typealt} in the
 union specified by the @code{%union} declaration.

-@xref{Action Types, ,Data Types of Values in Actions}.@refill
+@xref{Action Types, ,Data Types of Values in Actions}.

 
 @item YYABORT;
 Return immediately from @code{yyparse}, indicating failure.
 
 @item YYABORT;
 Return immediately from @code{yyparse}, indicating failure.


@@ -3644,7 +3966,7 @@ Tracking Locations}.
 
 @end table
 
 
 @end table
 

-@node Algorithm, Error Recovery, Interface, Top
+@node Algorithm

 @chapter The Bison Parser Algorithm
 @cindex Bison parser algorithm
 @cindex algorithm of parser
 @chapter The Bison Parser Algorithm
 @cindex Bison parser algorithm
 @cindex algorithm of parser


@@ -3711,7 +4033,7 @@ This kind of parser is known in the literature as a bottom-up parser.
 * Stack Overflow::    What happens when stack gets full.  How to avoid it.
 @end menu
 
 * Stack Overflow::    What happens when stack gets full.  How to avoid it.
 @end menu
 

-@node Look-Ahead, Shift/Reduce,  , Algorithm
+@node Look-Ahead

 @section Look-Ahead Tokens
 @cindex look-ahead token
 
 @section Look-Ahead Tokens
 @cindex look-ahead token
 


@@ -3766,7 +4088,7 @@ doing so would produce on the stack the sequence of symbols @code{expr
 The current look-ahead token is stored in the variable @code{yychar}.
 @xref{Action Features, ,Special Features for Use in Actions}.
 
 The current look-ahead token is stored in the variable @code{yychar}.
 @xref{Action Features, ,Special Features for Use in Actions}.
 

-@node Shift/Reduce, Precedence, Look-Ahead, Algorithm
+@node Shift/Reduce

 @section Shift/Reduce Conflicts
 @cindex conflicts
 @cindex shift/reduce conflicts
 @section Shift/Reduce Conflicts
 @cindex conflicts
 @cindex shift/reduce conflicts


@@ -3862,7 +4184,7 @@ expr:     variable
         ;
 @end example
 
         ;
 @end example
 

-@node Precedence, Contextual Precedence, Shift/Reduce, Algorithm
+@node Precedence

 @section Operator Precedence
 @cindex operator precedence
 @cindex precedence of operators
 @section Operator Precedence
 @cindex operator precedence
 @cindex precedence of operators


@@ -3879,7 +4201,7 @@ shift and when to reduce.
 * How Precedence::    How they work.
 @end menu
 
 * How Precedence::    How they work.
 @end menu
 

-@node Why Precedence, Using Precedence,  , Precedence
+@node Why Precedence

 @subsection When Precedence is Needed
 
 Consider the following ambiguous grammar fragment (ambiguous because the
 @subsection When Precedence is Needed
 
 Consider the following ambiguous grammar fragment (ambiguous because the


@@ -3926,7 +4248,7 @@ matter of whether the parser chooses to shift or reduce when the stack
 contains @w{@samp{1 - 2}} and the look-ahead token is @samp{-}: shifting
 makes right-associativity.
 
 contains @w{@samp{1 - 2}} and the look-ahead token is @samp{-}: shifting
 makes right-associativity.
 

-@node Using Precedence, Precedence Examples, Why Precedence, Precedence
+@node Using Precedence

 @subsection Specifying Operator Precedence
 @findex %left
 @findex %right
 @subsection Specifying Operator Precedence
 @findex %left
 @findex %right


@@ -3947,7 +4269,7 @@ order in which they are declared.  The first @code{%left} or
 precedence is lowest, the next such declaration declares the operators
 whose precedence is a little higher, and so on.
 
 precedence is lowest, the next such declaration declares the operators
 whose precedence is a little higher, and so on.
 

-@node Precedence Examples, How Precedence, Using Precedence, Precedence
+@node Precedence Examples

 @subsection Precedence Examples
 
 In our example, we would want the following declarations:
 @subsection Precedence Examples
 
 In our example, we would want the following declarations:


@@ -3973,28 +4295,29 @@ declared with @code{'-'}:
 and so on.  We assume that these tokens are more than one character long
 and therefore are represented by names, not character literals.)
 
 and so on.  We assume that these tokens are more than one character long
 and therefore are represented by names, not character literals.)
 

-@node How Precedence,  , Precedence Examples, Precedence
+@node How Precedence

 @subsection How Precedence Works
 
 The first effect of the precedence declarations is to assign precedence
 levels to the terminal symbols declared.  The second effect is to assign
 @subsection How Precedence Works
 
 The first effect of the precedence declarations is to assign precedence
 levels to the terminal symbols declared.  The second effect is to assign

-precedence levels to certain rules: each rule gets its precedence from the
-last terminal symbol mentioned in the components.  (You can also specify
-explicitly the precedence of a rule.  @xref{Contextual Precedence, ,Context-Dependent Precedence}.)
-
-Finally, the resolution of conflicts works by comparing the
-precedence of the rule being considered with that of the
-look-ahead token.  If the token's precedence is higher, the
-choice is to shift.  If the rule's precedence is higher, the
-choice is to reduce.  If they have equal precedence, the choice
-is made based on the associativity of that precedence level.  The
-verbose output file made by @samp{-v} (@pxref{Invocation, ,Invoking Bison}) says
-how each conflict was resolved.
+precedence levels to certain rules: each rule gets its precedence from
+the last terminal symbol mentioned in the components.  (You can also
+specify explicitly the precedence of a rule.  @xref{Contextual
+Precedence, ,Context-Dependent Precedence}.)
+
+Finally, the resolution of conflicts works by comparing the precedence
+of the rule being considered with that of the look-ahead token.  If the
+token's precedence is higher, the choice is to shift.  If the rule's
+precedence is higher, the choice is to reduce.  If they have equal
+precedence, the choice is made based on the associativity of that
+precedence level.  The verbose output file made by @samp{-v}
+(@pxref{Invocation, ,Invoking Bison}) says how each conflict was
+resolved.

 
 Not all rules and not all tokens have precedence.  If either the rule or
 the look-ahead token has no precedence, then the default is to shift.
 
 
 Not all rules and not all tokens have precedence.  If either the rule or
 the look-ahead token has no precedence, then the default is to shift.
 

-@node Contextual Precedence, Parser States, Precedence, Algorithm
+@node Contextual Precedence

 @section Context-Dependent Precedence
 @cindex context-dependent precedence
 @cindex unary operator precedence
 @section Context-Dependent Precedence
 @cindex context-dependent precedence
 @cindex unary operator precedence


@@ -4011,7 +4334,7 @@ The Bison precedence declarations, @code{%left}, @code{%right} and
 @code{%nonassoc}, can only be used once for a given token; so a token has
 only one precedence declared in this way.  For context-dependent
 precedence, you need to use an additional mechanism: the @code{%prec}
 @code{%nonassoc}, can only be used once for a given token; so a token has
 only one precedence declared in this way.  For context-dependent
 precedence, you need to use an additional mechanism: the @code{%prec}

-modifier for rules.@refill
+modifier for rules.

 
 The @code{%prec} modifier declares the precedence of a particular rule by
 specifying a terminal symbol whose precedence should be used for that rule.
 
 The @code{%prec} modifier declares the precedence of a particular rule by
 specifying a terminal symbol whose precedence should be used for that rule.


@@ -4052,7 +4375,7 @@ exp:    @dots{}
 @end group
 @end example
 
 @end group
 @end example
 

-@node Parser States, Reduce/Reduce, Contextual Precedence, Algorithm
+@node Parser States

 @section Parser States
 @cindex finite-state machine
 @cindex parser state
 @section Parser States
 @cindex finite-state machine
 @cindex parser state


@@ -4078,7 +4401,7 @@ There is one other alternative: the table can say that the look-ahead token
 is erroneous in the current state.  This causes error processing to begin
 (@pxref{Error Recovery}).
 
 is erroneous in the current state.  This causes error processing to begin
 (@pxref{Error Recovery}).
 

-@node Reduce/Reduce, Mystery Conflicts, Parser States, Algorithm
+@node Reduce/Reduce

 @section Reduce/Reduce Conflicts
 @cindex reduce/reduce conflict
 @cindex conflicts, reduce/reduce
 @section Reduce/Reduce Conflicts
 @cindex reduce/reduce conflict
 @cindex conflicts, reduce/reduce


@@ -4193,7 +4516,7 @@ redirects:redirect
         ;
 @end example
 
         ;
 @end example
 

-@node Mystery Conflicts, Stack Overflow, Reduce/Reduce, Algorithm
+@node Mystery Conflicts

 @section Mysterious Reduce/Reduce Conflicts
 
 Sometimes reduce/reduce conflicts can occur that don't look warranted.
 @section Mysterious Reduce/Reduce Conflicts
 
 Sometimes reduce/reduce conflicts can occur that don't look warranted.


@@ -4301,7 +4624,7 @@ return_spec:
         ;
 @end example
 
         ;
 @end example
 

-@node Stack Overflow,  , Mystery Conflicts, Algorithm
+@node Stack Overflow

 @section Stack Overflow, and How to Avoid It
 @cindex stack overflow
 @cindex parser stack overflow
 @section Stack Overflow, and How to Avoid It
 @cindex stack overflow
 @cindex parser stack overflow


@@ -4335,7 +4658,7 @@ You can control how much stack is allocated initially by defining the
 macro @code{YYINITDEPTH}.  This value too must be a compile-time
 constant integer.  The default is 200.
 
 macro @code{YYINITDEPTH}.  This value too must be a compile-time
 constant integer.  The default is 200.
 

-@node Error Recovery, Context Dependency, Algorithm, Top
+@node Error Recovery

 @chapter Error Recovery
 @cindex error recovery
 @cindex recovery from errors
 @chapter Error Recovery
 @cindex error recovery
 @cindex recovery from errors


@@ -4453,7 +4776,7 @@ value 1 when the parser is recovering from a syntax error, and 0 the
 rest of the time.  A value of 1 indicates that error messages are
 currently suppressed for new syntax errors.
 
 rest of the time.  A value of 1 indicates that error messages are
 currently suppressed for new syntax errors.
 

-@node Context Dependency, Debugging, Error Recovery, Top
+@node Context Dependency

 @chapter Handling Context Dependencies
 
 The Bison paradigm is to parse tokens first, then group them into larger
 @chapter Handling Context Dependencies
 
 The Bison paradigm is to parse tokens first, then group them into larger


@@ -4472,7 +4795,7 @@ languages.
 (Actually, ``kludge'' means any technique that gets its job done but is
 neither clean nor robust.)
 
 (Actually, ``kludge'' means any technique that gets its job done but is
 neither clean nor robust.)
 

-@node Semantic Tokens, Lexical Tie-ins,  , Context Dependency
+@node Semantic Tokens

 @section Semantic Info in Token Types
 
 The C language has a context dependency: the way an identifier is used
 @section Semantic Info in Token Types
 
 The C language has a context dependency: the way an identifier is used


@@ -4547,7 +4870,7 @@ here the information is global, and is used for other purposes in the
 program.  A true lexical tie-in has a special-purpose flag controlled by
 the syntactic context.
 
 program.  A true lexical tie-in has a special-purpose flag controlled by
 the syntactic context.
 

-@node Lexical Tie-ins, Tie-in Recovery, Semantic Tokens, Context Dependency
+@node Lexical Tie-ins

 @section Lexical Tie-ins
 @cindex lexical tie-in
 
 @section Lexical Tie-ins
 @cindex lexical tie-in
 


@@ -4596,11 +4919,11 @@ Here we assume that @code{yylex} looks at the value of @code{hexflag}; when
 it is nonzero, all integers are parsed in hexadecimal, and tokens starting
 with letters are parsed as integers if possible.
 
 it is nonzero, all integers are parsed in hexadecimal, and tokens starting
 with letters are parsed as integers if possible.
 

-The declaration of @code{hexflag} shown in the prologue of the parser file 
-is needed to make it accessible to the actions (@pxref{Prologue, ,The Prologue}).  
+The declaration of @code{hexflag} shown in the prologue of the parser file
+is needed to make it accessible to the actions (@pxref{Prologue, ,The Prologue}).

 You must also write the code in @code{yylex} to obey the flag.
 
 You must also write the code in @code{yylex} to obey the flag.
 

-@node Tie-in Recovery,  , Lexical Tie-ins, Context Dependency
+@node Tie-in Recovery

 @section Lexical Tie-ins and Error Recovery
 
 Lexical tie-ins make strict demands on any error recovery rules you have.
 @section Lexical Tie-ins and Error Recovery
 
 Lexical tie-ins make strict demands on any error recovery rules you have.


@@ -4655,9 +4978,414 @@ make sure your error recovery rules are not of this kind.  Each rule must
 be such that you can be sure that it always will, or always won't, have to
 clear the flag.
 
 be such that you can be sure that it always will, or always won't, have to
 clear the flag.
 

-@node Debugging, Invocation, Context Dependency, Top
+@c ================================================== Debugging Your Parser
+
+@node Debugging

 @chapter Debugging Your Parser
 @chapter Debugging Your Parser

-@findex YYDEBUG
+
+Developing a parser can be a challenge, especially if you don't
+understand the algorithm (@pxref{Algorithm, ,The Bison Parser
+Algorithm}).  Even so, sometimes a detailed description of the automaton
+can help (@pxref{Understanding, , Understanding Your Parser}), or
+tracing the execution of the parser can give some insight on why it
+behaves improperly (@pxref{Tracing, , Tracing Your Parser}).
+
+@menu
+* Understanding::     Understanding the structure of your parser.
+* Tracing::           Tracing the execution of your parser.
+@end menu
+
+@node Understanding
+@section Understanding Your Parser
+
+As documented elsewhere (@pxref{Algorithm, ,The Bison Parser Algorithm})
+Bison parsers are @dfn{shift/reduce automata}.  In some cases (much more
+frequent than one would hope), looking at this automaton is required to
+tune or simply fix a parser.  Bison provides two different
+representation of it, either textually or graphically (as a @sc{vcg}
+file).
+
+The textual file is generated when the options @option{--report} or
+@option{--verbose} are specified, see @xref{Invocation, , Invoking
+Bison}.  Its name is made by removing @samp{.tab.c} or @samp{.c} from
+the parser output file name, and adding @samp{.output} instead.
+Therefore, if the input file is @file{foo.y}, then the parser file is
+called @file{foo.tab.c} by default.  As a consequence, the verbose
+output file is called @file{foo.output}.
+
+The following grammar file, @file{calc.y}, will be used in the sequel:
+
+@example
+%token NUM STR
+%left '+' '-'
+%left '*'
+%%
+exp: exp '+' exp
+   | exp '-' exp
+   | exp '*' exp
+   | exp '/' exp
+   | NUM
+   ;
+useless: STR;
+%%
+@end example
+
+@command{bison} reports that @samp{calc.y contains 1 useless nonterminal
+and 1 useless rule} and that @samp{calc.y contains 7 shift/reduce
+conflicts}.  When given @option{--report=state}, in addition to
+@file{calc.tab.c}, it creates a file @file{calc.output} with contents
+detailed below.  The order of the output and the exact presentation
+might vary, but the interpretation is the same.
+
+The first section includes details on conflicts that were solved thanks
+to precedence and/or associativity:
+
+@example
+Conflict in state 8 between rule 2 and token '+' resolved as reduce.
+Conflict in state 8 between rule 2 and token '-' resolved as reduce.
+Conflict in state 8 between rule 2 and token '*' resolved as shift.
+@exdent @dots{}
+@end example
+
+@noindent
+The next section lists states that still have conflicts.
+
+@example
+State 8 contains 1 shift/reduce conflict.
+State 9 contains 1 shift/reduce conflict.
+State 10 contains 1 shift/reduce conflict.
+State 11 contains 4 shift/reduce conflicts.
+@end example
+
+@noindent
+@cindex token, useless
+@cindex useless token
+@cindex nonterminal, useless
+@cindex useless nonterminal
+@cindex rule, useless
+@cindex useless rule
+The next section reports useless tokens, nonterminal and rules.  Useless
+nonterminals and rules are removed in order to produce a smaller parser,
+but useless tokens are preserved, since they might be used by the
+scanner (note the difference between ``useless'' and ``not used''
+below):
+
+@example
+Useless nonterminals:
+   useless
+
+Terminals which are not used:
+   STR
+
+Useless rules:
+#6     useless: STR;
+@end example
+
+@noindent
+The next section reproduces the exact grammar that Bison used:
+
+@example
+Grammar
+
+  Number, Line, Rule
+    0   5 $axiom -> exp $
+    1   5 exp -> exp '+' exp
+    2   6 exp -> exp '-' exp
+    3   7 exp -> exp '*' exp
+    4   8 exp -> exp '/' exp
+    5   9 exp -> NUM
+@end example
+
+@noindent
+and reports the uses of the symbols:
+
+@example
+Terminals, with rules where they appear
+
+$ (0) 0
+'*' (42) 3
+'+' (43) 1
+'-' (45) 2
+'/' (47) 4
+error (256)
+NUM (258) 5
+
+Nonterminals, with rules where they appear
+
+$axiom (8)
+    on left: 0
+exp (9)
+    on left: 1 2 3 4 5, on right: 0 1 2 3 4
+@end example
+
+@noindent
+@cindex item
+@cindex pointed rule
+@cindex rule, pointed
+Bison then proceeds onto the automaton itself, describing each state
+with it set of @dfn{items}, also known as @dfn{pointed rules}.  Each
+item is a production rule together with a point (marked by @samp{.})
+that the input cursor.
+
+@example
+state 0
+
+    $axiom  ->  . exp $   (rule 0)
+
+    NUM        shift, and go to state 1
+
+    exp        go to state 2
+@end example
+
+This reads as follows: ``state 0 corresponds to being at the very
+beginning of the parsing, in the initial rule, right before the start
+symbol (here, @code{exp}).  When the parser returns to this state right
+after having reduced a rule that produced an @code{exp}, the control
+flow jumps to state 2.  If there is no such transition on a nonterminal
+symbol, and the lookahead is a @code{NUM}, then this token is shifted on
+the parse stack, and the control flow jumps to state 1.  Any other
+lookahead triggers a parse error.''
+
+@cindex core, item set
+@cindex item set core
+@cindex kernel, item set
+@cindex item set core
+Even though the only active rule in state 0 seems to be rule 0, the
+report lists @code{NUM} as a lookahead symbol because @code{NUM} can be
+at the beginning of any rule deriving an @code{exp}.  By default Bison
+reports the so-called @dfn{core} or @dfn{kernel} of the item set, but if
+you want to see more detail you can invoke @command{bison} with
+@option{--report=itemset} to list all the items, include those that can
+be derived:
+
+@example
+state 0
+
+    $axiom  ->  . exp $   (rule 0)
+    exp  ->  . exp '+' exp   (rule 1)
+    exp  ->  . exp '-' exp   (rule 2)
+    exp  ->  . exp '*' exp   (rule 3)
+    exp  ->  . exp '/' exp   (rule 4)
+    exp  ->  . NUM   (rule 5)
+
+    NUM         shift, and go to state 1
+
+    exp         go to state 2
+@end example
+
+@noindent
+In the state 1...
+
+@example
+state 1
+
+    exp  ->  NUM .   (rule 5)
+
+    $default   reduce using rule 5 (exp)
+@end example
+
+@noindent
+the rule 5, @samp{exp: NUM;}, is completed.  Whatever the lookahead
+(@samp{$default}), the parser will reduce it.  If it was coming from
+state 0, then, after this reduction it will return to state 0, and will
+jump to state 2 (@samp{exp: go to state 2}).
+
+@example
+state 2
+
+    $axiom  ->  exp . $   (rule 0)
+    exp  ->  exp . '+' exp   (rule 1)
+    exp  ->  exp . '-' exp   (rule 2)
+    exp  ->  exp . '*' exp   (rule 3)
+    exp  ->  exp . '/' exp   (rule 4)
+
+    $          shift, and go to state 3
+    '+'        shift, and go to state 4
+    '-'        shift, and go to state 5
+    '*'        shift, and go to state 6
+    '/'        shift, and go to state 7
+@end example
+
+@noindent
+In state 2, the automaton can only shift a symbol.  For instance,
+because of the item @samp{exp -> exp . '+' exp}, if the lookahead if
+@samp{+}, it will be shifted on the parse stack, and the automaton
+control will jump to state 4, corresponding to the item @samp{exp -> exp
+'+' . exp}.  Since there is no default action, any other token than
+those listed above will trigger a parse error.
+
+The state 3 is named the @dfn{final state}, or the @dfn{accepting
+state}:
+
+@example
+state 3
+
+    $axiom  ->  exp $ .   (rule 0)
+
+    $default   accept
+@end example
+
+@noindent
+the initial rule is completed (the start symbol and the end
+of input were read), the parsing exits successfully.
+
+The interpretation of states 4 to 7 is straightforward, and is left to
+the reader.
+
+@example
+state 4
+
+    exp  ->  exp '+' . exp   (rule 1)
+
+    NUM        shift, and go to state 1
+
+    exp        go to state 8
+
+state 5
+
+    exp  ->  exp '-' . exp   (rule 2)
+
+    NUM        shift, and go to state 1
+
+    exp        go to state 9
+
+state 6
+
+    exp  ->  exp '*' . exp   (rule 3)
+
+    NUM        shift, and go to state 1
+
+    exp        go to state 10
+
+state 7
+
+    exp  ->  exp '/' . exp   (rule 4)
+
+    NUM        shift, and go to state 1
+
+    exp        go to state 11
+@end example
+
+As was announced in beginning of the report, @samp{State 8 contains 1
+shift/reduce conflict}:
+
+@example
+state 8
+
+    exp  ->  exp . '+' exp   (rule 1)
+    exp  ->  exp '+' exp .   (rule 1)
+    exp  ->  exp . '-' exp   (rule 2)
+    exp  ->  exp . '*' exp   (rule 3)
+    exp  ->  exp . '/' exp   (rule 4)
+
+    '*'        shift, and go to state 6
+    '/'        shift, and go to state 7
+
+    '/'        [reduce using rule 1 (exp)]
+    $default   reduce using rule 1 (exp)
+@end example
+
+Indeed, there are two actions associated to the lookahead @samp{/}:
+either shifting (and going to state 7), or reducing rule 1.  The
+conflict means that either the grammar is ambiguous, or the parser lacks
+information to make the right decision.  Indeed the grammar is
+ambiguous, as, since we did not specify the precedence of @samp{/}, the
+sentence @samp{NUM + NUM / NUM} can be parsed as @samp{NUM + (NUM /
+NUM)}, which corresponds to shifting @samp{/}, or as @samp{(NUM + NUM) /
+NUM}, which corresponds to reducing rule 1.
+
+Because in LALR(1) parsing a single decision can be made, Bison
+arbitrarily chose to disable the reduction, see @ref{Shift/Reduce, ,
+Shift/Reduce Conflicts}.  Discarded actions are reported in between
+square brackets.
+
+Note that all the previous states had a single possible action: either
+shifting the next token and going to the corresponding state, or
+reducing a single rule.  In the other cases, i.e., when shifting
+@emph{and} reducing is possible or when @emph{several} reductions are
+possible, the lookahead is required to select the action.  State 8 is
+one such state: if the lookahead is @samp{*} or @samp{/} then the action
+is shifting, otherwise the action is reducing rule 1.  In other words,
+the first two items, corresponding to rule 1, are not eligible when the
+lookahead is @samp{*}, since we specified that @samp{*} has higher
+precedence that @samp{+}.  More generally, some items are eligible only
+with some set of possible lookaheads.  When run with
+@option{--report=lookahead}, Bison specifies these lookaheads:
+
+@example
+state 8
+
+    exp  ->  exp . '+' exp  [$, '+', '-', '/']   (rule 1)
+    exp  ->  exp '+' exp .  [$, '+', '-', '/']   (rule 1)
+    exp  ->  exp . '-' exp   (rule 2)
+    exp  ->  exp . '*' exp   (rule 3)
+    exp  ->  exp . '/' exp   (rule 4)
+
+    '*'         shift, and go to state 6
+    '/'         shift, and go to state 7
+
+    '/'         [reduce using rule 1 (exp)]
+    $default    reduce using rule 1 (exp)
+@end example
+
+The remaining states are similar:
+
+@example
+state 9
+
+    exp  ->  exp . '+' exp   (rule 1)
+    exp  ->  exp . '-' exp   (rule 2)
+    exp  ->  exp '-' exp .   (rule 2)
+    exp  ->  exp . '*' exp   (rule 3)
+    exp  ->  exp . '/' exp   (rule 4)
+
+    '*'        shift, and go to state 6
+    '/'        shift, and go to state 7
+
+    '/'        [reduce using rule 2 (exp)]
+    $default   reduce using rule 2 (exp)
+
+state 10
+
+    exp  ->  exp . '+' exp   (rule 1)
+    exp  ->  exp . '-' exp   (rule 2)
+    exp  ->  exp . '*' exp   (rule 3)
+    exp  ->  exp '*' exp .   (rule 3)
+    exp  ->  exp . '/' exp   (rule 4)
+
+    '/'        shift, and go to state 7
+
+    '/'        [reduce using rule 3 (exp)]
+    $default   reduce using rule 3 (exp)
+
+state 11
+
+    exp  ->  exp . '+' exp   (rule 1)
+    exp  ->  exp . '-' exp   (rule 2)
+    exp  ->  exp . '*' exp   (rule 3)
+    exp  ->  exp . '/' exp   (rule 4)
+    exp  ->  exp '/' exp .   (rule 4)
+
+    '+'        shift, and go to state 4
+    '-'        shift, and go to state 5
+    '*'        shift, and go to state 6
+    '/'        shift, and go to state 7
+
+    '+'        [reduce using rule 4 (exp)]
+    '-'        [reduce using rule 4 (exp)]
+    '*'        [reduce using rule 4 (exp)]
+    '/'        [reduce using rule 4 (exp)]
+    $default   reduce using rule 4 (exp)
+@end example
+
+@noindent
+Observe that state 11 contains conflicts due to the lack of precedence
+of @samp{/} wrt @samp{+}, @samp{-}, and @samp{*}, but also because the
+associativity of @samp{/} is not specified.
+
+
+@node Tracing
+@section Tracing Your Parser

 @findex yydebug
 @cindex debugging
 @cindex tracing the parser
 @findex yydebug
 @cindex debugging
 @cindex tracing the parser


@@ -4665,15 +5393,39 @@ clear the flag.
 If a Bison grammar compiles properly but doesn't do what you want when it
 runs, the @code{yydebug} parser-trace feature can help you figure out why.
 
 If a Bison grammar compiles properly but doesn't do what you want when it
 runs, the @code{yydebug} parser-trace feature can help you figure out why.
 

-To enable compilation of trace facilities, you must define the macro
-@code{YYDEBUG} when you compile the parser.  You could use @samp{-DYYDEBUG=1} 
-as a compiler option or you could put @samp{#define YYDEBUG 1} in the prologue 
-of the grammar file (@pxref{Prologue, , The Prologue}). Alternatively, use the 
-@samp{-t} option when you run Bison (@pxref{Invocation, ,Invoking Bison}).  
-We always define @code{YYDEBUG} so that debugging is always possible.
+There are several means to enable compilation of trace facilities:
+
+@table @asis
+@item the macro @code{YYDEBUG}
+@findex YYDEBUG
+Define the macro @code{YYDEBUG} to a nonzero value when you compile the
+parser.  This is compliant with POSIX Yacc.  You could use
+@samp{-DYYDEBUG=1} as a compiler option or you could put @samp{#define
+YYDEBUG 1} in the prologue of the grammar file (@pxref{Prologue, , The
+Prologue}).
+
+@item the option @option{-t}, @option{--debug}
+Use the @samp{-t} option when you run Bison (@pxref{Invocation,
+,Invoking Bison}).  This is POSIX compliant too.
+
+@item the directive @samp{%debug}
+@findex %debug
+Add the @code{%debug} directive (@pxref{Decl Summary, ,Bison
+Declaration Summary}).  This is a Bison extension, which will prove
+useful when Bison will output parsers for languages that don't use a
+preprocessor.  Useless POSIX and Yacc portability matter to you, this is
+the preferred solution.
+@end table
+
+We suggest that you always enable the debug option so that debugging is
+always possible.

 
 

-The trace facility uses @code{stderr}, so you must add 
-@w{@code{#include <stdio.h>}} to the prologue unless it is already there.
+The trace facility outputs messages with macro calls of the form
+@code{YYFPRINTF (stderr, @var{format}, @var{args})} where
+@var{format} and @var{args} are the usual @code{printf} format and
+arguments.  If you define @code{YYDEBUG} to a nonzero value but do not
+define @code{YYFPRINTF}, @code{<stdio.h>} is automatically included
+and @code{YYPRINTF} is defined to @code{fprintf}.

 
 Once you have compiled the program with trace facilities, the way to
 request a trace is to store a nonzero value in the variable @code{yydebug}.
 
 Once you have compiled the program with trace facilities, the way to
 request a trace is to store a nonzero value in the variable @code{yydebug}.


@@ -4698,13 +5450,14 @@ of the state stack afterward.
 @end itemize
 
 To make sense of this information, it helps to refer to the listing file
 @end itemize
 
 To make sense of this information, it helps to refer to the listing file

-produced by the Bison @samp{-v} option (@pxref{Invocation, ,Invoking Bison}).  This file
-shows the meaning of each state in terms of positions in various rules, and
-also what each state will do with each possible input token.  As you read
-the successive trace messages, you can see that the parser is functioning
-according to its specification in the listing file.  Eventually you will
-arrive at the place where something undesirable happens, and you will see
-which parts of the grammar are to blame.
+produced by the Bison @samp{-v} option (@pxref{Invocation, ,Invoking
+Bison}).  This file shows the meaning of each state in terms of
+positions in various rules, and also what each state will do with each
+possible input token.  As you read the successive trace messages, you
+can see that the parser is functioning according to its specification in
+the listing file.  Eventually you will arrive at the place where
+something undesirable happens, and you will see which parts of the
+grammar are to blame.

 
 The parser file is a C program and you can use C debuggers on it, but it's
 not easy to interpret what it is doing.  The parser function is a
 
 The parser file is a C program and you can use C debuggers on it, but it's
 not easy to interpret what it is doing.  The parser function is a


@@ -4736,7 +5489,9 @@ yyprint (FILE *file, int type, YYSTYPE value)
 @}
 @end smallexample
 
 @}
 @end smallexample
 

-@node Invocation, Table of Symbols, Debugging, Top
+@c ================================================= Invoking Bison
+
+@node Invocation

 @chapter Invoking Bison
 @cindex invoking Bison
 @cindex Bison invocation
 @chapter Invoking Bison
 @cindex invoking Bison
 @cindex Bison invocation


@@ -4752,7 +5507,7 @@ Here @var{infile} is the grammar file name, which usually ends in
 @samp{.y}.  The parser file's name is made by replacing the @samp{.y}
 with @samp{.tab.c}.  Thus, the @samp{bison foo.y} filename yields
 @file{foo.tab.c}, and the @samp{bison hack/foo.y} filename yields
 @samp{.y}.  The parser file's name is made by replacing the @samp{.y}
 with @samp{.tab.c}.  Thus, the @samp{bison foo.y} filename yields
 @file{foo.tab.c}, and the @samp{bison hack/foo.y} filename yields

-@file{hack/foo.tab.c}. It's is also possible, in case you are writting
+@file{hack/foo.tab.c}. It's is also possible, in case you are writing

 C++ code instead of C in your grammar file, to name it @file{foo.ypp}
 or @file{foo.y++}. Then, the output files will take an extention like
 the given one as input (repectively @file{foo.tab.cpp} and @file{foo.tab.c++}).
 C++ code instead of C in your grammar file, to name it @file{foo.ypp}
 or @file{foo.y++}. Then, the output files will take an extention like
 the given one as input (repectively @file{foo.tab.cpp} and @file{foo.tab.c++}).


@@ -4782,7 +5537,7 @@ will produce @file{output.c++} and @file{outfile.h++}.
 * VMS Invocation::    Bison command syntax on VMS.
 @end menu
 
 * VMS Invocation::    Bison command syntax on VMS.
 @end menu
 

-@node Bison Options, Environment Variables,  , Invocation
+@node Bison Options

 @section Bison Options
 
 Bison supports both traditional single-letter options and mnemonic long
 @section Bison Options
 
 Bison supports both traditional single-letter options and mnemonic long


@@ -4811,12 +5566,11 @@ Print the version number of Bison and exit.
 @need 1750
 @item -y
 @itemx --yacc
 @need 1750
 @item -y
 @itemx --yacc

-@itemx --fixed-output-files

 Equivalent to @samp{-o y.tab.c}; the parser output file is called
 @file{y.tab.c}, and the other outputs are called @file{y.output} and
 @file{y.tab.h}.  The purpose of this option is to imitate Yacc's output
 file name conventions.  Thus, the following shell script can substitute
 Equivalent to @samp{-o y.tab.c}; the parser output file is called
 @file{y.tab.c}, and the other outputs are called @file{y.output} and
 @file{y.tab.h}.  The purpose of this option is to imitate Yacc's output
 file name conventions.  Thus, the following shell script can substitute

-for Yacc:@refill
+for Yacc:

 
 @example
 bison -y $*
 
 @example
 bison -y $*


@@ -4834,24 +5588,17 @@ you are developing Bison.
 
 @item -t
 @itemx --debug
 
 @item -t
 @itemx --debug

-Output a definition of the macro @code{YYDEBUG} into the parser file, so
-that the debugging facilities are compiled.  @xref{Debugging, ,Debugging
-Your Parser}.
+In the parser file, define the macro @code{YYDEBUG} to 1 if it is not
+already defined, so that the debugging facilities are compiled.
+@xref{Tracing, ,Tracing Your Parser}.

 
 @item --locations
 
 @item --locations

-Pretend that @code{%locactions} was specified.  @xref{Decl Summary}.
+Pretend that @code{%locations} was specified.  @xref{Decl Summary}.

 
 @item -p @var{prefix}
 @itemx --name-prefix=@var{prefix}
 
 @item -p @var{prefix}
 @itemx --name-prefix=@var{prefix}

-Rename the external symbols used in the parser so that they start with
-@var{prefix} instead of @samp{yy}.  The precise list of symbols renamed
-is @code{yyparse}, @code{yylex}, @code{yyerror}, @code{yynerrs},
-@code{yylval}, @code{yychar} and @code{yydebug}.
-
-For example, if you use @samp{-p c}, the names become @code{cparse},
-@code{clex}, and so on.
-
-@xref{Multiple Parsers, ,Multiple Parsers in the Same Program}.
+Pretend that @code{%name-prefix="@var{prefix}"} was specified.
+@xref{Decl Summary}.

 
 @item -l
 @itemx --no-lines
 
 @item -l
 @itemx --no-lines


@@ -4863,11 +5610,11 @@ parser file, treating it as an independent source file in its own right.
 
 @item -n
 @itemx --no-parser
 
 @item -n
 @itemx --no-parser

-Pretend that @code{%no_parser} was specified.  @xref{Decl Summary}.
+Pretend that @code{%no-parser} was specified.  @xref{Decl Summary}.

 
 @item -k
 @itemx --token-table
 
 @item -k
 @itemx --token-table

-Pretend that @code{%token_table} was specified.  @xref{Decl Summary}.
+Pretend that @code{%token-table} was specified.  @xref{Decl Summary}.

 @end table
 
 @noindent
 @end table
 
 @noindent


@@ -4876,34 +5623,67 @@ Adjust the output:
 @table @option
 @item -d
 @itemx --defines
 @table @option
 @item -d
 @itemx --defines

-Pretend that @code{%verbose} was specified, i.e., write an extra output
+Pretend that @code{%defines} was specified, i.e., write an extra output

 file containing macro definitions for the token type names defined in
 the grammar and the semantic value type @code{YYSTYPE}, as well as a few
 @code{extern} variable declarations.  @xref{Decl Summary}.
 
 file containing macro definitions for the token type names defined in
 the grammar and the semantic value type @code{YYSTYPE}, as well as a few
 @code{extern} variable declarations.  @xref{Decl Summary}.
 

+@item --defines=@var{defines-file}
+Same as above, but save in the file @var{defines-file}.
+

 @item -b @var{file-prefix}
 @itemx --file-prefix=@var{prefix}
 @item -b @var{file-prefix}
 @itemx --file-prefix=@var{prefix}

-Specify a prefix to use for all Bison output file names.  The names are
-chosen as if the input file were named @file{@var{prefix}.c}.
+Pretend that @code{%verbose} was specified, i.e, specify prefix to use
+for all Bison output file names. @xref{Decl Summary}.
+
+@item -r @var{things}
+@itemx --report=@var{things}
+Write an extra output file containing verbose description of the comma
+separated list of @var{things} among:
+
+@table @code
+@item state
+Description of the grammar, conflicts (resolved and unresolved), and
+LALR automaton.
+
+@item lookahead
+Implies @code{state} and augments the description of the automaton with
+each rule's lookahead set.
+
+@item itemset
+Implies @code{state} and augments the description of the automaton with
+the full set of items for each state, instead of its core only.
+@end table
+
+For instance, on the following grammar

 
 @item -v
 @itemx --verbose
 Pretend that @code{%verbose} was specified, i.e, write an extra output
 file containing verbose descriptions of the grammar and
 
 @item -v
 @itemx --verbose
 Pretend that @code{%verbose} was specified, i.e, write an extra output
 file containing verbose descriptions of the grammar and

-parser. @xref{Decl Summary}, for more.
+parser. @xref{Decl Summary}.

 
 

-@item -o @var{outfile}
-@itemx --output-file=@var{outfile}
-Specify the name @var{outfile} for the parser file.
+@item -o @var{filename}
+@itemx --output=@var{filename}
+Specify the @var{filename} for the parser file.

 
 

-The other output files' names are constructed from @var{outfile}
-as described under the @samp{-v} and @samp{-d} options.
+The other output files' names are constructed from @var{filename} as
+described under the @samp{-v} and @samp{-d} options.
+
+@item -g
+Output a VCG definition of the LALR(1) grammar automaton computed by
+Bison. If the grammar file is @file{foo.y}, the VCG output file will
+be @file{foo.vcg}.
+
+@item --graph=@var{graph-file}
+The behaviour of @var{--graph} is the same than @samp{-g}. The only
+difference is that it has an optionnal argument which is the name of
+the output graph filename.

 @end table
 
 @end table
 

-@node Environment Variables, Option Cross Key, Bison Options, Invocation
+@node Environment Variables

 @section Environment Variables
 @cindex environment variables
 @section Environment Variables
 @cindex environment variables

-@cindex BISON_HAIRY

 @cindex BISON_SIMPLE
 
 Here is a list of environment variables which affect the way Bison
 @cindex BISON_SIMPLE
 
 Here is a list of environment variables which affect the way Bison


@@ -4911,21 +5691,14 @@ runs.
 
 @table @samp
 @item BISON_SIMPLE
 
 @table @samp
 @item BISON_SIMPLE

-@itemx BISON_HAIRY

 Much of the parser generated by Bison is copied verbatim from a file
 called @file{bison.simple}.  If Bison cannot find that file, or if you
 would like to direct Bison to use a different copy, setting the
 environment variable @code{BISON_SIMPLE} to the path of the file will
 cause Bison to use that copy instead.
 Much of the parser generated by Bison is copied verbatim from a file
 called @file{bison.simple}.  If Bison cannot find that file, or if you
 would like to direct Bison to use a different copy, setting the
 environment variable @code{BISON_SIMPLE} to the path of the file will
 cause Bison to use that copy instead.

-
-When the @samp{%semantic_parser} declaration is used, Bison copies from
-a file called @file{bison.hairy} instead.  The location of this file can
-also be specified or overridden in a similar fashion, with the
-@code{BISON_HAIRY} environment variable.
-

 @end table
 
 @end table
 

-@node Option Cross Key, VMS Invocation, Environment Variables, Invocation
+@node Option Cross Key

 @section Option Cross Key
 
 Here is a list of options, alphabetized by long option, to help you find
 @section Option Cross Key
 
 Here is a list of options, alphabetized by long option, to help you find


@@ -4938,12 +5711,12 @@ the corresponding short option.
 \line{ --debug \leaderfill -t}
 \line{ --defines \leaderfill -d}
 \line{ --file-prefix \leaderfill -b}
 \line{ --debug \leaderfill -t}
 \line{ --defines \leaderfill -d}
 \line{ --file-prefix \leaderfill -b}

-\line{ --fixed-output-files \leaderfill -y}
+\line{ --graph \leaderfill -g}

 \line{ --help \leaderfill -h}
 \line{ --name-prefix \leaderfill -p}
 \line{ --no-lines \leaderfill -l}
 \line{ --no-parser \leaderfill -n}
 \line{ --help \leaderfill -h}
 \line{ --name-prefix \leaderfill -p}
 \line{ --no-lines \leaderfill -l}
 \line{ --no-parser \leaderfill -n}

-\line{ --output-file \leaderfill -o}
+\line{ --output \leaderfill -o}

 \line{ --token-table \leaderfill -k}
 \line{ --verbose \leaderfill -v}
 \line{ --version \leaderfill -V}
 \line{ --token-table \leaderfill -k}
 \line{ --verbose \leaderfill -v}
 \line{ --version \leaderfill -V}


@@ -4954,21 +5727,22 @@ the corresponding short option.
 @ifinfo
 @example
 --debug                               -t
 @ifinfo
 @example
 --debug                               -t

---defines                             -d
+--defines=@var{defines-file}          -d

 --file-prefix=@var{prefix}                  -b @var{file-prefix}
 --file-prefix=@var{prefix}                  -b @var{file-prefix}

---fixed-output-files --yacc           -y
+--graph=@var{graph-file}              -d

 --help                                -h
 --name-prefix=@var{prefix}                  -p @var{name-prefix}
 --no-lines                            -l
 --no-parser                           -n
 --help                                -h
 --name-prefix=@var{prefix}                  -p @var{name-prefix}
 --no-lines                            -l
 --no-parser                           -n

---output-file=@var{outfile}                 -o @var{outfile}
+--output=@var{outfile}                      -o @var{outfile}

 --token-table                         -k
 --verbose                             -v
 --version                             -V
 --token-table                         -k
 --verbose                             -v
 --version                             -V

+--yacc                                -y

 @end example
 @end ifinfo
 
 @end example
 @end ifinfo
 

-@node VMS Invocation,  , Option Cross Key, Invocation
+@node VMS Invocation

 @section Invoking Bison under VMS
 @cindex invoking Bison under VMS
 @cindex VMS
 @section Invoking Bison under VMS
 @cindex invoking Bison under VMS
 @cindex VMS


@@ -4996,12 +5770,28 @@ The VMS file system does not permit filenames such as
 @file{foo.tab.c}.  In the above example, the output file
 would instead be named @file{foo_tab.c}.
 
 @file{foo.tab.c}.  In the above example, the output file
 would instead be named @file{foo_tab.c}.
 

-@node Table of Symbols, Glossary, Invocation, Top
+@node Table of Symbols

 @appendix Bison Symbols
 @cindex Bison symbols, table of
 @cindex symbols in Bison, table of
 
 @table @code
 @appendix Bison Symbols
 @cindex Bison symbols, table of
 @cindex symbols in Bison, table of
 
 @table @code

+@item @@$
+In an action, the location of the left-hand side of the rule.
+  @xref{Locations, , Locations Overview}.
+
+@item @@@var{n}
+In an action, the location of the @var{n}-th symbol of the right-hand
+side of the rule.  @xref{Locations, , Locations Overview}.
+
+@item $$
+In an action, the semantic value of the left-hand side of the rule.
+@xref{Actions}.
+
+@item $@var{n}
+In an action, the semantic value of the @var{n}-th symbol of the
+right-hand side of the rule.  @xref{Actions}.
+

 @item error
 A token name reserved for error recovery.  This token may be used in
 grammar rules so as to allow the Bison parser to recognize an error in
 @item error
 A token name reserved for error recovery.  This token may be used in
 grammar rules so as to allow the Bison parser to recognize an error in


@@ -5027,6 +5817,10 @@ read, by making @code{yyparse} return 0 immediately.
 Macro to discard a value from the parser stack and fake a look-ahead
 token.  @xref{Action Features, ,Special Features for Use in Actions}.
 
 Macro to discard a value from the parser stack and fake a look-ahead
 token.  @xref{Action Features, ,Special Features for Use in Actions}.
 

+@item YYDEBUG
+Macro to define to equip the parser with tracing code. @xref{Tracing,
+,Tracing Your Parser}.
+

 @item YYERROR
 Macro to pretend that a syntax error has just been detected: call
 @code{yyerror} and then perform normal error recovery if possible
 @item YYERROR
 Macro to pretend that a syntax error has just been detected: call
 @code{yyerror} and then perform normal error recovery if possible


@@ -5089,7 +5883,7 @@ look-ahead token.  @xref{Error Recovery}.
 @item yydebug
 External integer variable set to zero by default.  If @code{yydebug}
 is given a nonzero value, the parser will output information on input
 @item yydebug
 External integer variable set to zero by default.  If @code{yydebug}
 is given a nonzero value, the parser will output information on input

-symbols and parser action.  @xref{Debugging, ,Debugging Your Parser}.
+symbols and parser action.  @xref{Tracing, ,Tracing Your Parser}.

 
 @item yyerrok
 Macro to cause parser to recover immediately to its normal mode
 
 @item yyerrok
 Macro to cause parser to recover immediately to its normal mode


@@ -5102,8 +5896,9 @@ containing an error message.  @xref{Error Reporting, ,The Error
 Reporting Function @code{yyerror}}.
 
 @item yylex
 Reporting Function @code{yyerror}}.
 
 @item yylex

-User-supplied lexical analyzer function, called with no arguments
-to get the next token.  @xref{Lexical, ,The Lexical Analyzer Function @code{yylex}}.
+User-supplied lexical analyzer function, called with no arguments to get
+the next token.  @xref{Lexical, ,The Lexical Analyzer Function
+@code{yylex}}.

 
 @item yylval
 External variable in which @code{yylex} should place the semantic
 
 @item yylval
 External variable in which @code{yylex} should place the semantic


@@ -5135,11 +5930,15 @@ Equip the parser for debugging.  @xref{Decl Summary}.
 Bison declaration to create a header file meant for the scanner.
 @xref{Decl Summary}.
 
 Bison declaration to create a header file meant for the scanner.
 @xref{Decl Summary}.
 

-@c @item %source_extension
+@item %file-prefix="@var{prefix}"
+Bison declaration to set tge prefix of the output files. @xref{Decl
+Summary}.
+
+@c @item %source-extension

 @c Bison declaration to specify the generated parser output file extension.
 @c @xref{Decl Summary}.
 @c
 @c Bison declaration to specify the generated parser output file extension.
 @c @xref{Decl Summary}.
 @c

-@c @item %header_extension
+@c @item %header-extension

 @c Bison declaration to specify the generated parser header file extension
 @c if required. @xref{Decl Summary}.
 
 @c Bison declaration to specify the generated parser header file extension
 @c if required. @xref{Decl Summary}.
 


@@ -5147,7 +5946,10 @@ Bison declaration to create a header file meant for the scanner.
 Bison declaration to assign left associativity to token(s).
 @xref{Precedence Decl, ,Operator Precedence}.
 
 Bison declaration to assign left associativity to token(s).
 @xref{Precedence Decl, ,Operator Precedence}.
 

-@item %no_lines
+@item %name-prefix="@var{prefix}"
+Bison declaration to rename the external symbols. @xref{Decl Summary}.
+
+@item %no-lines

 Bison declaration to avoid generating @code{#line} directives in the
 parser file.  @xref{Decl Summary}.
 
 Bison declaration to avoid generating @code{#line} directives in the
 parser file.  @xref{Decl Summary}.
 


@@ -5155,11 +5957,15 @@ parser file.  @xref{Decl Summary}.
 Bison declaration to assign non-associativity to token(s).
 @xref{Precedence Decl, ,Operator Precedence}.
 
 Bison declaration to assign non-associativity to token(s).
 @xref{Precedence Decl, ,Operator Precedence}.
 

+@item %output="@var{filename}"
+Bison declaration to set the name of the parser file. @xref{Decl
+Summary}.
+

 @item %prec
 Bison declaration to assign a precedence to a specific rule.
 @xref{Contextual Precedence, ,Context-Dependent Precedence}.
 
 @item %prec
 Bison declaration to assign a precedence to a specific rule.
 @xref{Contextual Precedence, ,Context-Dependent Precedence}.
 

-@item %pure_parser
+@item %pure-parser

 Bison declaration to request a pure (reentrant) parser.
 @xref{Pure Decl, ,A Pure (Reentrant) Parser}.
 
 Bison declaration to request a pure (reentrant) parser.
 @xref{Pure Decl, ,A Pure (Reentrant) Parser}.
 


@@ -5168,24 +5974,28 @@ Bison declaration to assign right associativity to token(s).
 @xref{Precedence Decl, ,Operator Precedence}.
 
 @item %start
 @xref{Precedence Decl, ,Operator Precedence}.
 
 @item %start

-Bison declaration to specify the start symbol.  @xref{Start Decl, ,The Start-Symbol}.
+Bison declaration to specify the start symbol.  @xref{Start Decl, ,The
+Start-Symbol}.

 
 @item %token
 Bison declaration to declare token(s) without specifying precedence.
 @xref{Token Decl, ,Token Type Names}.
 
 
 @item %token
 Bison declaration to declare token(s) without specifying precedence.
 @xref{Token Decl, ,Token Type Names}.
 

-@item %token_table
+@item %token-table

 Bison declaration to include a token name table in the parser file.
 @xref{Decl Summary}.
 
 @item %type
 Bison declaration to include a token name table in the parser file.
 @xref{Decl Summary}.
 
 @item %type

-Bison declaration to declare nonterminals.  @xref{Type Decl, ,Nonterminal Symbols}.
+Bison declaration to declare nonterminals.  @xref{Type Decl,
+,Nonterminal Symbols}.

 
 @item %union
 Bison declaration to specify several possible data types for semantic
 values.  @xref{Union Decl, ,The Collection of Value Types}.
 @end table
 
 
 @item %union
 Bison declaration to specify several possible data types for semantic
 values.  @xref{Union Decl, ,The Collection of Value Types}.
 @end table
 

+@sp 1
+

 These are the punctuation and delimiters used in Bison input:
 
 @table @samp
 These are the punctuation and delimiters used in Bison input:
 
 @table @samp


@@ -5196,7 +6006,7 @@ Bison declarations section or the epilogue.
 
 @item %@{ %@}
 All code listed between @samp{%@{} and @samp{%@}} is copied directly to
 
 @item %@{ %@}
 All code listed between @samp{%@{} and @samp{%@}} is copied directly to

-the output file uninterpreted.  Such code forms the prologue of the input 
+the output file uninterpreted.  Such code forms the prologue of the input

 file.  @xref{Grammar Outline, ,Outline of a Bison
 Grammar}.
 
 file.  @xref{Grammar Outline, ,Outline of a Bison
 Grammar}.
 


@@ -5215,7 +6025,7 @@ Separates alternate rules for the same result nonterminal.
 @xref{Rules, ,Syntax of Grammar Rules}.
 @end table
 
 @xref{Rules, ,Syntax of Grammar Rules}.
 @end table
 

-@node Glossary, Copying This Manual, Table of Symbols, Top
+@node Glossary

 @appendix Glossary
 @cindex glossary
 
 @appendix Glossary
 @cindex glossary
 


@@ -5376,7 +6186,7 @@ grammatically indivisible.  The piece of text it represents is a token.
 @xref{Language and Grammar, ,Languages and Context-Free Grammars}.
 @end table
 
 @xref{Language and Grammar, ,Languages and Context-Free Grammars}.
 @end table
 

-@node Copying This Manual, Index, Glossary, Top
+@node Copying This Manual

 @appendix Copying This Manual
 
 @menu
 @appendix Copying This Manual
 
 @menu


@@ -5385,7 +6195,7 @@ grammatically indivisible.  The piece of text it represents is a token.
 
 @include fdl.texi
 
 
 @include fdl.texi
 

-@node Index,  , Copying This Manual, Top
+@node Index

 @unnumbered Index
 
 @printindex cp
 @unnumbered Index
 
 @printindex cp