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- This is Info file bison.info, produced by Makeinfo-1.52 from the input
- file ./bison.texinfo.
- This file documents the Bison parser generator.
- Copyright (C) 1988, 1989, 1990, 1991, 1992 Free Software Foundation,
- Inc.
- Permission is granted to make and distribute verbatim copies of this
- manual provided the copyright notice and this permission notice are
- preserved on all copies.
- Permission is granted to copy and distribute modified versions of
- this manual under the conditions for verbatim copying, provided also
- that the sections entitled "GNU General Public License" and "Conditions
- for Using Bison" are included exactly as in the original, and provided
- that the entire resulting derived work is distributed under the terms
- of a permission notice identical to this one.
- Permission is granted to copy and distribute translations of this
- manual into another language, under the above conditions for modified
- versions, except that the sections entitled "GNU General Public
- License", "Conditions for Using Bison" and this permission notice may be
- included in translations approved by the Free Software Foundation
- instead of in the original English.
- File: bison.info, Node: Top, Next: Introduction, Prev: (dir), Up: (dir)
- This manual documents version 1.20 of Bison.
- * Menu:
- * Introduction::
- * Conditions::
- * Copying:: The GNU General Public License says
- how you can copy and share Bison
- Tutorial sections:
- * Concepts:: Basic concepts for understanding Bison.
- * Examples:: Three simple explained examples of using Bison.
- Reference sections:
- * Grammar File:: Writing Bison declarations and rules.
- * Interface:: C-language interface to the parser function `yyparse'.
- * Algorithm:: How the Bison parser works at run-time.
- * 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.
- * 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.
- * Index:: Cross-references to the text.
- -- The Detailed Node Listing --
- The Concepts of Bison
- * Language and Grammar:: Languages and context-free grammars,
- as mathematical ideas.
- * Grammar in Bison:: How we represent grammars for Bison's sake.
- * Semantic Values:: Each token or syntactic grouping can have
- a semantic value (the value of an integer,
- the name of an identifier, etc.).
- * Semantic Actions:: Each rule can have an action containing C code.
- * Bison Parser:: What are Bison's input and output,
- how is the output used?
- * Stages:: Stages in writing and running Bison grammars.
- * Grammar Layout:: Overall structure of a Bison grammar file.
- Examples
- * RPN Calc:: Reverse polish notation calculator;
- a first example with no operator precedence.
- * Infix Calc:: Infix (algebraic) notation calculator.
- Operator precedence is introduced.
- * Simple Error Recovery:: Continuing after syntax errors.
- * 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.
- Reverse Polish Notation Calculator
- * Decls: Rpcalc Decls. Bison and C declarations for rpcalc.
- * Rules: Rpcalc Rules. Grammar Rules for rpcalc, with explanation.
- * Lexer: Rpcalc Lexer. The lexical analyzer.
- * Main: Rpcalc Main. The controlling function.
- * Error: Rpcalc Error. The error reporting function.
- * Gen: Rpcalc Gen. Running Bison on the grammar file.
- * Comp: Rpcalc Compile. Run the C compiler on the output code.
- Grammar Rules for `rpcalc'
- * Rpcalc Input::
- * Rpcalc Line::
- * Rpcalc Expr::
- Multi-Function Calculator: `mfcalc'
- * Decl: Mfcalc Decl. Bison declarations for multi-function calculator.
- * Rules: Mfcalc Rules. Grammar rules for the calculator.
- * Symtab: Mfcalc Symtab. Symbol table management subroutines.
- Bison Grammar Files
- * Grammar Outline:: Overall layout of the grammar file.
- * Symbols:: Terminal and nonterminal symbols.
- * Rules:: How to write grammar rules.
- * Recursion:: Writing recursive rules.
- * Semantics:: Semantic values and actions.
- * Declarations:: All kinds of Bison declarations are described here.
- * Multiple Parsers:: Putting more than one Bison parser in one program.
- Outline of a Bison Grammar
- * C Declarations:: Syntax and usage of the C declarations section.
- * Bison Declarations:: Syntax and usage of the Bison declarations section.
- * Grammar Rules:: Syntax and usage of the grammar rules section.
- * C Code:: Syntax and usage of the additional C code section.
- Defining Language Semantics
- * Value Type:: Specifying one data type for all semantic values.
- * Multiple Types:: Specifying several alternative data types.
- * Actions:: An action is the semantic definition of a grammar rule.
- * Action Types:: Specifying data types for actions to operate on.
- * Mid-Rule Actions:: Most actions go at the end of a rule.
- This says when, why and how to use the exceptional
- action in the middle of a rule.
- Bison Declarations
- * Token Decl:: Declaring terminal symbols.
- * Precedence Decl:: Declaring terminals with precedence and associativity.
- * Union Decl:: Declaring the set of all semantic value types.
- * Type Decl:: Declaring the choice of type for a nonterminal symbol.
- * Expect Decl:: Suppressing warnings about shift/reduce conflicts.
- * Start Decl:: Specifying the start symbol.
- * Pure Decl:: Requesting a reentrant parser.
- * Decl Summary:: Table of all Bison declarations.
- Parser C-Language Interface
- * Parser Function:: How to call `yyparse' and what it returns.
- * Lexical:: You must supply a function `yylex'
- which reads tokens.
- * Error Reporting:: You must supply a function `yyerror'.
- * Action Features:: Special features for use in actions.
- The Lexical Analyzer Function `yylex'
- * Calling Convention:: How `yyparse' calls `yylex'.
- * Token Values:: How `yylex' must return the semantic value
- of the token it has read.
- * Token Positions:: How `yylex' must return the text position
- (line number, etc.) of the token, if the
- actions want that.
- * Pure Calling:: How the calling convention differs
- in a pure parser (*note A Pure (Reentrant) Parser: Pure Decl.).
- The Bison Parser Algorithm
- * Look-Ahead:: Parser looks one token ahead when deciding what to do.
- * Shift/Reduce:: Conflicts: when either shifting or reduction is valid.
- * Precedence:: Operator precedence works by resolving conflicts.
- * Contextual Precedence:: When an operator's precedence depends on context.
- * Parser States:: The parser is a finite-state-machine with stack.
- * Reduce/Reduce:: When two rules are applicable in the same situation.
- * Mystery Conflicts:: Reduce/reduce conflicts that look unjustified.
- * Stack Overflow:: What happens when stack gets full. How to avoid it.
- Operator Precedence
- * Why Precedence:: An example showing why precedence is needed.
- * Using Precedence:: How to specify precedence in Bison grammars.
- * Precedence Examples:: How these features are used in the previous example.
- * How Precedence:: How they work.
- Handling Context Dependencies
- * Semantic Tokens:: Token parsing can depend on the semantic context.
- * Lexical Tie-ins:: Token parsing can depend on the syntactic context.
- * Tie-in Recovery:: Lexical tie-ins have implications for how
- error recovery rules must be written.
- Invoking Bison
- * Bison Options:: All the options described in detail,
- in alphabetical order by short options.
- * Option Cross Key:: Alphabetical list of long options.
- * VMS Invocation:: Bison command syntax on VMS.
- File: bison.info, Node: Introduction, Next: Conditions, Prev: Top, Up: Top
- Introduction
- ************
- "Bison" is a general-purpose parser generator that converts a
- grammar description for an LALR(1) context-free grammar into a C
- program to parse that grammar. Once you are proficient with Bison, you
- may use it to develop a wide range of language parsers, from those used
- in simple desk calculators to complex programming languages.
- Bison is upward compatible with Yacc: all properly-written Yacc
- grammars ought to work with Bison with no change. Anyone familiar with
- Yacc should be able to use Bison with little trouble. You need to be
- fluent in C programming in order to use Bison or to understand this
- manual.
- We begin with tutorial chapters that explain the basic concepts of
- using Bison and show three explained examples, each building on the
- last. If you don't know Bison or Yacc, start by reading these
- chapters. Reference chapters follow which describe specific aspects of
- Bison in detail.
- Bison was written primarily by Robert Corbett; Richard Stallman made
- it Yacc-compatible. This edition corresponds to version 1.20 of Bison.
- File: bison.info, Node: Conditions, Next: Copying, Prev: Introduction, Up: Top
- Conditions for Using Bison
- **************************
- Bison grammars can be used only in programs that are free software.
- This is in contrast to what happens with the GNU C compiler and the
- other GNU programming tools.
- The reason Bison is special is that the output of the Bison
- utility--the Bison parser file--contains a verbatim copy of a sizable
- piece of Bison, which is the code for the `yyparse' function. (The
- actions from your grammar are inserted into this function at one point,
- but the rest of the function is not changed.)
- As a result, the Bison parser file is covered by the same copying
- conditions that cover Bison itself and the rest of the GNU system: any
- program containing it has to be distributed under the standard GNU
- copying conditions.
- Occasionally people who would like to use Bison to develop
- proprietary programs complain about this.
- We don't particularly sympathize with their complaints. The purpose
- of the GNU project is to promote the right to share software and the
- practice of sharing software; it is a means of changing society. The
- people who complain are planning to be uncooperative toward the rest of
- the world; why should they deserve our help in doing so?
- However, it's possible that a change in these conditions might
- encourage computer companies to use and distribute the GNU system. If
- so, then we might decide to change the terms on `yyparse' as a matter
- of the strategy of promoting the right to share. Such a change would be
- irrevocable. Since we stand by the copying permissions we have
- announced, we cannot withdraw them once given.
- We mustn't make an irrevocable change hastily. We have to wait
- until there is a complete GNU system and there has been time to learn
- how this issue affects its reception.
- File: bison.info, Node: Copying, Next: Concepts, Prev: Conditions, Up: Top
- GNU GENERAL PUBLIC LICENSE
- **************************
- Version 2, June 1991
- Copyright (C) 1989, 1991 Free Software Foundation, Inc.
- 675 Mass Ave, Cambridge, MA 02139, USA
-
- Everyone is permitted to copy and distribute verbatim copies
- of this license document, but changing it is not allowed.
- Preamble
- ========
- The licenses for most software are designed to take away your
- freedom to share and change it. By contrast, the GNU General Public
- License is intended to guarantee your freedom to share and change free
- software--to make sure the software is free for all its users. This
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- Foundation's software and to any other program whose authors commit to
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- How to Apply These Terms to Your New Programs
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- it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with this program; if not, write to the Free Software
- Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
- Also add information on how to contact you by electronic and paper
- mail.
- If the program is interactive, make it output a short notice like
- this when it starts in an interactive mode:
- Gnomovision version 69, Copyright (C) 19YY NAME OF AUTHOR
- Gnomovision comes with ABSOLUTELY NO WARRANTY; for details
- type `show w'.
- This is free software, and you are welcome to redistribute it
- under certain conditions; type `show c' for details.
- The hypothetical commands `show w' and `show c' should show the
- appropriate parts of the General Public License. Of course, the
- commands you use may be called something other than `show w' and `show
- c'; they could even be mouse-clicks or menu items--whatever suits your
- program.
- You should also get your employer (if you work as a programmer) or
- your school, if any, to sign a "copyright disclaimer" for the program,
- if necessary. Here is a sample; alter the names:
- Yoyodyne, Inc., hereby disclaims all copyright interest in the program
- `Gnomovision' (which makes passes at compilers) written by James Hacker.
-
- SIGNATURE OF TY COON, 1 April 1989
- Ty Coon, President of Vice
- This General Public License does not permit incorporating your
- program into proprietary programs. If your program is a subroutine
- library, you may consider it more useful to permit linking proprietary
- applications with the library. If this is what you want to do, use the
- GNU Library General Public License instead of this License.
- File: bison.info, Node: Concepts, Next: Examples, Prev: Copying, Up: Top
- The Concepts of Bison
- *********************
- This chapter introduces many of the basic concepts without which the
- details of Bison will not make sense. If you do not already know how to
- use Bison or Yacc, we suggest you start by reading this chapter
- carefully.
- * Menu:
- * Language and Grammar:: Languages and context-free grammars,
- as mathematical ideas.
- * Grammar in Bison:: How we represent grammars for Bison's sake.
- * Semantic Values:: Each token or syntactic grouping can have
- a semantic value (the value of an integer,
- the name of an identifier, etc.).
- * Semantic Actions:: Each rule can have an action containing C code.
- * Bison Parser:: What are Bison's input and output,
- how is the output used?
- * Stages:: Stages in writing and running Bison grammars.
- * Grammar Layout:: Overall structure of a Bison grammar file.
- File: bison.info, Node: Language and Grammar, Next: Grammar in Bison, Up: Concepts
- Languages and Context-Free Grammars
- ===================================
- In order for Bison to parse a language, it must be described by a
- "context-free grammar". This means that you specify one or more
- "syntactic groupings" and give rules for constructing them from their
- parts. For example, in the C language, one kind of grouping is called
- an `expression'. One rule for making an expression might be, "An
- expression can be made of a minus sign and another expression".
- Another would be, "An expression can be an integer". As you can see,
- rules are often recursive, but there must be at least one rule which
- leads out of the recursion.
- The most common formal system for presenting such rules for humans
- to read is "Backus-Naur Form" or "BNF", which was developed in order to
- specify the language Algol 60. Any grammar expressed in BNF is a
- context-free grammar. The input to Bison is essentially
- machine-readable BNF.
- Not all context-free languages can be handled by Bison, only those
- that are LALR(1). In brief, this means that it must be possible to
- tell how to parse any portion of an input string with just a single
- token of look-ahead. Strictly speaking, that is a description of an
- LR(1) grammar, and LALR(1) involves additional restrictions that are
- hard to explain simply; but it is rare in actual practice to find an
- LR(1) grammar that fails to be LALR(1). *Note Mysterious Reduce/Reduce
- Conflicts: Mystery Conflicts, for more information on this.
- In the formal grammatical rules for a language, each kind of
- syntactic unit or grouping is named by a "symbol". Those which are
- built by grouping smaller constructs according to grammatical rules are
- called "nonterminal symbols"; those which can't be subdivided are called
- "terminal symbols" or "token types". We call a piece of input
- corresponding to a single terminal symbol a "token", and a piece
- corresponding to a single nonterminal symbol a "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 string), and the various keywords, arithmetic operators and
- punctuation marks. So the terminal symbols of a grammar for C include
- `identifier', `number', `string', plus one symbol for each keyword,
- operator or punctuation mark: `if', `return', `const', `static', `int',
- `char', `plus-sign', `open-brace', `close-brace', `comma' and many
- more. (These tokens can be subdivided into characters, but that is a
- matter of lexicography, not grammar.)
- Here is a simple C function subdivided into tokens:
- int /* keyword `int' */
- square (x) /* identifier, open-paren, */
- /* identifier, close-paren */
- int x; /* keyword `int', identifier, semicolon */
- { /* open-brace */
- return x * x; /* keyword `return', identifier, */
- /* asterisk, identifier, semicolon */
- } /* close-brace */
- The syntactic groupings of C include the expression, the statement,
- the declaration, and the function definition. These are represented in
- the grammar of C by nonterminal symbols `expression', `statement',
- `declaration' and `function definition'. The full grammar uses dozens
- of additional language constructs, each with its own nonterminal
- symbol, in order to express the meanings of these four. The example
- above is a function definition; it contains one declaration, and one
- statement. In the statement, each `x' is an expression and so is `x *
- x'.
- Each nonterminal symbol must have grammatical rules showing how it
- is made out of simpler constructs. For example, one kind of C
- statement is the `return' statement; this would be described with a
- grammar rule which reads informally as follows:
- A `statement' can be made of a `return' keyword, an `expression'
- and a `semicolon'.
- There would be many other rules for `statement', one for each kind of
- statement in C.
- One nonterminal symbol must be distinguished as the special one which
- defines a complete utterance in the language. It is called the "start
- symbol". In a compiler, this means a complete input program. In the C
- language, the nonterminal symbol `sequence of definitions and
- declarations' plays this role.
- For example, `1 + 2' is a valid C expression--a valid part of a C
- program--but it is not valid as an *entire* C program. In the
- context-free grammar of C, this follows from the fact that `expression'
- is not the start symbol.
- The Bison parser reads a sequence of tokens as its input, and groups
- the tokens using the grammar rules. If the input is valid, the end
- result is that the entire token sequence reduces to a single grouping
- whose symbol is 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.
- File: bison.info, Node: Grammar in Bison, Next: Semantic Values, Prev: Language and Grammar, Up: Concepts
- From Formal Rules to Bison Input
- ================================
- A formal grammar is a mathematical construct. To define the language
- for Bison, you must write a file expressing the grammar in Bison syntax:
- a "Bison grammar" file. *Note Bison Grammar Files: Grammar File.
- A nonterminal symbol in the formal grammar is represented in Bison
- input as an identifier, like an identifier in C. By convention, it
- should be in lower case, such as `expr', `stmt' or `declaration'.
- The Bison representation for a terminal symbol is also called a
- "token type". Token types as well can be represented as C-like
- identifiers. By convention, these identifiers should be upper case to
- distinguish them from nonterminals: for example, `INTEGER',
- `IDENTIFIER', `IF' or `RETURN'. A terminal symbol that stands for a
- particular keyword in the language should be named after that keyword
- converted to upper case. The terminal symbol `error' is reserved for
- error recovery. *Note Symbols::.
- A terminal symbol can also be represented as a character literal,
- just like a C character constant. You should do this whenever a token
- is just a single character (parenthesis, plus-sign, etc.): use that
- same character in a literal as the terminal symbol for that token.
- The grammar rules also have an expression in Bison syntax. For
- example, here is the Bison rule for a C `return' statement. The
- semicolon in quotes is a literal character token, representing part of
- the C syntax for the statement; the naked semicolon, and the colon, are
- Bison punctuation used in every rule.
- stmt: RETURN expr ';'
- ;
- *Note Syntax of Grammar Rules: Rules.
- File: bison.info, Node: Semantic Values, Next: Semantic Actions, Prev: Grammar in Bison, Up: Concepts
- Semantic Values
- ===============
- A formal grammar selects tokens only by their classifications: for
- example, if a rule mentions the terminal symbol `integer constant', it
- means that *any* integer constant is grammatically valid in that
- position. The precise value of the constant is irrelevant to how to
- parse the input: if `x+4' is grammatical then `x+1' or `x+3989' is
- equally 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 3989 as constants in the program! Therefore, each
- token in a Bison grammar has both a token type and a "semantic value".
- *Note Defining Language Semantics: Semantics, for details.
- The token type is a terminal symbol defined in the grammar, such as
- `INTEGER', `IDENTIFIER' or `',''. 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.
- 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
- identifier. (A token such as `','' which is just punctuation doesn't
- need to have any semantic value.)
- For example, an input token might be classified as token type
- `INTEGER' and have the semantic value 4. Another input token might
- have the same token type `INTEGER' but value 3989. When a grammar rule
- says that `INTEGER' is allowed, either of these tokens is acceptable
- because each is an `INTEGER'. When the parser accepts the token, it
- keeps track of the token's semantic value.
- Each grouping can also have a semantic value as well as its
- nonterminal symbol. For example, in a calculator, an expression
- typically has a 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.
- File: bison.info, Node: Semantic Actions, Next: Bison Parser, Prev: Semantic Values, Up: Concepts
- Semantic Actions
- ================
- In order to be useful, a program must do more than parse input; it
- must also produce some output based on the input. In a Bison grammar,
- a grammar rule can have an "action" made up of C statements. Each time
- the parser recognizes a match for that rule, the action is executed.
- *Note Actions::.
- Most of the time, the purpose of an action is to compute the
- semantic value of the whole construct from the semantic values of its
- parts. For example, suppose we have a rule which says an expression
- can be the sum of two expressions. When the parser recognizes such a
- sum, each of the subexpressions has a semantic value which describes
- how it was built up. The action for this rule should create a similar
- sort of value for the newly recognized larger expression.
- For example, here is a rule that says an expression can be the sum of
- two subexpressions:
- 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.
- File: bison.info, Node: Bison Parser, Next: Stages, Prev: Semantic Actions, Up: Concepts
- Bison Output: the Parser File
- =============================
- When you run Bison, you give it a Bison grammar file as input. The
- output is a C source file that parses the language described by the
- grammar. This file is called a "Bison parser". Keep in mind that the
- Bison utility and the Bison parser are two distinct programs: the Bison
- utility is a program whose output is the Bison parser that becomes part
- of your program.
- The job of the Bison parser is to group tokens into groupings
- according to 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.
- The tokens come from a function called the "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. *Note The Lexical Analyzer Function `yylex': Lexical.
- The Bison parser file is C code which defines a function named
- `yyparse' which implements that grammar. This function does not make a
- complete C program: you must supply some additional functions. One is
- the lexical analyzer. Another is an error-reporting function which the
- parser calls to report an error. In addition, a complete C program must
- start with a function called `main'; you have to provide this, and
- arrange for it to call `yyparse' or the parser will never run. *Note
- Parser C-Language Interface: 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
- begin with `yy' or `YY'. This includes interface functions such as the
- lexical analyzer function `yylex', the error reporting function
- `yyerror' and the parser function `yyparse' itself. This also includes
- numerous identifiers used for internal purposes. Therefore, you should
- avoid using C identifiers starting with `yy' or `YY' in the Bison
- grammar file except for the ones defined in this manual.
- File: bison.info, Node: Stages, Next: Grammar Layout, Prev: Bison Parser, Up: Concepts
- Stages in Using Bison
- =====================
- The actual language-design process using Bison, from grammar
- specification to a working compiler or interpreter, has these parts:
- 1. Formally specify the grammar in a form recognized by Bison (*note
- Bison Grammar Files: Grammar File.). 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.
- 2. Write a lexical analyzer to process input and pass tokens to the
- parser. The lexical analyzer may be written by hand in C (*note
- The Lexical Analyzer Function `yylex': Lexical.). It could also
- be produced using Lex, but the use of Lex is not discussed in this
- manual.
- 3. Write a controlling function that calls the Bison-produced parser.
- 4. Write error-reporting routines.
- To turn this source code as written into a runnable program, you
- must follow these steps:
- 1. Run Bison on the grammar to produce the parser.
- 2. Compile the code output by Bison, as well as any other source
- files.
- 3. Link the object files to produce the finished product.
- File: bison.info, Node: Grammar Layout, Prev: Stages, Up: Concepts
- The Overall Layout of a Bison Grammar
- =====================================
- The input file for the Bison utility is a "Bison grammar file". The
- general form of a Bison grammar file is as follows:
- %{
- C DECLARATIONS
- %}
-
- BISON DECLARATIONS
-
- %%
- GRAMMAR RULES
- %%
- ADDITIONAL C CODE
- The `%%', `%{' and `%}' are punctuation that appears in every Bison
- grammar file to separate the sections.
- The C declarations may define types and variables used in the
- actions. You can also use preprocessor commands to define macros used
- there, and use `#include' to include header files that do any of these
- things.
- The Bison declarations declare the names of the terminal and
- nonterminal symbols, and may also describe operator precedence and the
- data types of semantic values of various symbols.
- The grammar rules define how to construct each nonterminal symbol
- from its parts.
- The additional C code can contain any C code you want to use. Often
- the definition of the lexical analyzer `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.
- File: bison.info, Node: Examples, Next: Grammar File, Prev: Concepts, Up: Top
- Examples
- ********
- Now we show and explain three sample programs written using Bison: a
- reverse polish notation calculator, an algebraic (infix) notation
- calculator, and a multi-function calculator. All three have been tested
- under BSD Unix 4.3; each produces a usable, though limited, interactive
- desk-top calculator.
- These examples are simple, but Bison grammars for real programming
- languages are written the same way. You can copy these examples out of
- the Info file and into a source file to try them.
- * Menu:
- * RPN Calc:: Reverse polish notation calculator;
- a first example with no operator precedence.
- * Infix Calc:: Infix (algebraic) notation calculator.
- Operator precedence is introduced.
- * Simple Error Recovery:: Continuing after syntax errors.
- * 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.
- File: bison.info, Node: RPN Calc, Next: Infix Calc, Up: Examples
- Reverse Polish Notation Calculator
- ==================================
- The first example is that of a simple double-precision "reverse
- polish notation" calculator (a calculator using postfix operators).
- This example provides a good starting point, since operator precedence
- is not an issue. The second example will illustrate how operator
- precedence is handled.
- The source code for this calculator is named `rpcalc.y'. The `.y'
- extension is a convention used for Bison input files.
- * Menu:
- * Decls: Rpcalc Decls. Bison and C declarations for rpcalc.
- * Rules: Rpcalc Rules. Grammar Rules for rpcalc, with explanation.
- * Lexer: Rpcalc Lexer. The lexical analyzer.
- * Main: Rpcalc Main. The controlling function.
- * Error: Rpcalc Error. The error reporting function.
- * Gen: Rpcalc Gen. Running Bison on the grammar file.
- * Comp: Rpcalc Compile. Run the C compiler on the output code.
- File: bison.info, Node: Rpcalc Decls, Next: Rpcalc Rules, Up: RPN Calc
- Declarations for `rpcalc'
- -------------------------
- Here are the C and Bison declarations for the reverse polish notation
- calculator. As in C, comments are placed between `/*...*/'.
- /* Reverse polish notation calculator. */
-
- %{
- #define YYSTYPE double
- #include <math.h>
- %}
-
- %token NUM
-
- %% /* Grammar rules and actions follow */
- The C declarations section (*note The C Declarations Section: C
- Declarations.) contains two preprocessor directives.
- The `#define' directive defines the macro `YYSTYPE', thus specifying
- the C data type for semantic values of both tokens and groupings (*note
- Data Types of Semantic Values: Value Type.). The Bison parser will use
- whatever type `YYSTYPE' is defined as; if you don't define it, `int' is
- the default. Because we specify `double', each token and each
- expression has an associated value, which is a floating point number.
- The `#include' directive is used to declare the exponentiation
- function `pow'.
- The second section, Bison declarations, provides information to
- Bison about the token types (*note The Bison Declarations Section:
- Bison Declarations.). 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 `NUM', the token type
- for numeric constants.
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