docs form David Van Horn; Slideshow tweaks

svn: r8661

original commit: ca1a9dc8bfc22c376c6c3eeeedfbb52c2ae9b1e8
tokens
Matthew Flatt 17 years ago
parent cc263b3e74
commit 2224a46b6f

@ -1,3 +1,3 @@
#lang setup/infotab
(define scribblings '(("parser-tools.scrbl" ())))
(define scribblings '(("parser-tools.scrbl" (multi-page))))

@ -3,14 +3,19 @@
scribble/struct
scribble/xref
scribble/bnf
(for-label parser-tools/lex
(prefix-in : parser-tools/lex-sre)))
(for-label scheme/base
scheme/contract
parser-tools/lex
(prefix-in : parser-tools/lex-sre)
parser-tools/yacc))
@title{@bold{Parser Tools}: @exec{lex} and @exec{yacc}-style Parsing}
This documentation assumes familiarity with @exec{lex} and @exec{yacc}
style lexer and parser generators.
@table-of-contents[]
@; ----------------------------------------------------------------------
@section{Lexers}
@ -22,7 +27,7 @@ style lexer and parser generators.
@subsection{Creating a Lexer}
@defform/subs[#:literals (repetition union intersection complement concatenation
char-range char-complement char-set
char-range char-complement
eof special special-comment)
(lexer [trigger action-expr] ...)
([trigger re
@ -39,7 +44,6 @@ style lexer and parser generators.
(concatenation re ...)
(char-range char char)
(char-complement re)
(char-set string)
(id datum ...)])]{
Produces a function that takes an input-port, matches the
@ -70,7 +74,6 @@ style lexer and parser generators.
a single character string can be used as a @scheme[char].}
@item{@scheme[(char-complement re)] --- matches any character not matched by @scheme[re].
The sub-expression must be a set of characters @scheme[re].}
@item{@scheme[(char-set string)] --- matches any character in the string.}
@item{@scheme[(id datum ...)] --- expands the @deftech{lexer macro} named @scheme[id]; macros
are defined via @scheme[define-lex-trans].}
}
@ -276,6 +279,10 @@ error.}
@subsection{Lexer Abbreviations and Macros}
@defform[(char-set string)]{
A @tech{lexer macro} that matches any character in @scheme[string].}
@defidform[any-char]{A @tech{lexer abbreviation} that matches any character.}
@defidform[any-string]{A @tech{lexer abbreviation} that matches any string.}
@ -321,54 +328,7 @@ characters, @scheme[char-lower-case?] characters, etc.}
@; ----------------------------------------
@subsection{Tokens}
Each @scheme[_action-expr] in a @scheme[lexer] form can produce any
kind of value, but for many purposes, producing a @deftech{token}
value is useful. Tokens are usually necessary for inter-operating with
a parser generated by @scheme[parser-tools/parser], but tokens not be
the right choice when using @scheme[lexer] in other situations.
@defform[(define-tokens group-id (token-id ...))]{
Binds @scheme[group-id] to the group of tokens being defined. For
each @scheme[token-id], a function
@schemeidfont{token-}@scheme[token-id] is created that takes any
value and puts it in a token record specific to @scheme[token-id].
The token value is inspected using @scheme[token-name] and
@scheme[token-value].
A token cannot be named @schemeidfont{error}, since
@schemeidfont{error} it has special use in the parser.}
@defform[(define-empty-tokens group-id (token-id ...) )]{
Like @scheme[define-tokens], except a each token constructor
@schemeidfont{token-}@scheme[token-id] take nos arguments and returns
@scheme[(@scheme[quote] token-id)].}
@defproc[(token-name [t (or/c token? symbol?)]) symbol?]{
Returns the name of a token that is represented either by a symbol
or a token structure.}
@defproc[(token-value [t (or/c token? symbol?)]) any/c]{
Returns the value of a token that is represented either by a symbol
or a token structure, returning @scheme[#f] for a symbol token.}
@defproc[(token? [v any/c]) boolean?]{
Returns @scheme[#t] if @scheme[val] is a
token structure, @scheme[#f] otherwise.}
@; ----------------------------------------------------------------------
@section{Lex SRE Operators}
@subsection{Lexer SRE Operators}
@defmodule[parser-tools/lex-sre]
@ -442,144 +402,266 @@ characters.}
@(lex-sre-doc)
@; ----------------------------------------
@subsection{Lexer Legacy Operators}
@defmodule[parser-tools/lex-plt-v200]
@(define-syntax-rule (lex-v200-doc)
(...
(begin
(require (for-label parser-tools/lex-plt-v200))
@t{The @schememodname[parser-tools/lex-plt-v200] module re-exports
@scheme[*], @scheme[+], @scheme[?], and @scheme[&] from
@schememodname[parser-tools/lex-sre]. It also re-exports
@scheme[:or] as @scheme[:], @scheme[::] as @scheme[|@|], @scheme[:~]
as @scheme[^], and @scheme[:/] as @scheme[-].}
@defform[(epsilon)]{
A @tech{lexer macro} that matches an empty sequence.}
@defform[(~ re ...)]{
The same as @scheme[(complement re ...)].})))
@(lex-v200-doc)
@; ----------------------------------------
@subsection{Tokens}
Each @scheme[_action-expr] in a @scheme[lexer] form can produce any
kind of value, but for many purposes, producing a @deftech{token}
value is useful. Tokens are usually necessary for inter-operating with
a parser generated by @scheme[parser-tools/parser], but tokens not be
the right choice when using @scheme[lexer] in other situations.
@defform[(define-tokens group-id (token-id ...))]{
Binds @scheme[group-id] to the group of tokens being defined. For
each @scheme[token-id], a function
@schemeidfont{token-}@scheme[token-id] is created that takes any
value and puts it in a token record specific to @scheme[token-id].
The token value is inspected using @scheme[token-id] and
@scheme[token-value].
A token cannot be named @schemeidfont{error}, since
@schemeidfont{error} it has special use in the parser.}
@defform[(define-empty-tokens group-id (token-id ...) )]{
Like @scheme[define-tokens], except a each token constructor
@schemeidfont{token-}@scheme[token-id] take nos arguments and returns
@scheme[(@scheme[quote] token-id)].}
@defproc[(token-name [t (or/c token? symbol?)]) symbol?]{
Returns the name of a token that is represented either by a symbol
or a token structure.}
@defproc[(token-value [t (or/c token? symbol?)]) any/c]{
Returns the value of a token that is represented either by a symbol
or a token structure, returning @scheme[#f] for a symbol token.}
@defproc[(token? [v any/c]) boolean?]{
Returns @scheme[#t] if @scheme[val] is a
token structure, @scheme[#f] otherwise.}
@; ----------------------------------------------------------------------
@section{Parsers}
@defmodule[parser-tools/yacc]
@defform/subs[(parser clause ...)
([clause ....])]{
Creates a parser. The clauses may be in any order (as
long as there are no duplicates and all non-optional arguments are
present).
@defform/subs[#:literals (grammar tokens start end precs error src-pos
suppress debug yacc-output prec)
(parser clause ...)
([clause (grammar (non-terminal-id
((grammar-id ...) maybe-prec expr)
...)
...)
(tokens group-id ...)
(start non-terminal-id ...)
(end token-id ...)
(error expr)
(precs (assoc token-id ...) ...)
(src-pos)
(suppress)
(debug filename)
(yacc-output filename)]
[maybe-prec code:blank
(prec token-id)]
[assoc left right nonassoc])]{
Creates a parser. The clauses may be in any order, as long as there
are no duplicates and all non-@italic{OPTIONAL} declarations are
present:
@itemize{
@item{@scheme[(debug filename)] @italic{OPTIONAL}
@item{@schemeblock0[(grammar (non-terminal-id
((grammar-id ...) maybe-prec expr)
...)
...)]
causes the parser generator to write the LALR table to the file
named @filepath{filename} (unless the file exists).
@filepath{filename} must be a string. Additionally, if a debug
file is specified, when a running generated parser encounters a
parse error on some input file, after the user specified error
expression returns, the complete parse stack is printed to
assist in debugging the grammar of that particular parser. The
numbers in the stack printout correspond to the state numbers in
the LALR table file.}
Declares the grammar to be parsed. Each @scheme[grammar-id] can
be a @scheme[token-id] from a @scheme[group-id] named in a
@scheme[tokens] declaration, or it can be a
@scheme[non-terminal-id] declared in the @scheme[grammar]
declaration. The optional @scheme[prec] declaration works with
the @scheme[precs] declaration. The @scheme[expr] is a
``semantic action,'' which is evaluated when the input is found
to match its corresponding production.
Each action is scheme code that has the same scope as its
parser's definition, except that the variables @scheme[$1], ...,
@schemeidfont{$}@math{n} are bound, where @math{n} is the number
of @scheme[grammar-id]s in the corresponding production. Each
@schemeidfont{$}@math{i} is bound to the result of the action
for the @math{i}@superscript{th} grammar symbol on the right of
the production, if that grammar symbol is a non-terminal, or the
value stored in the token if the grammar symbol is a terminal.
If the @scheme[src-pos] option is present in the parser, then
variables @scheme[$1-start-pos], ...,
@schemeidfont{$}@math{n}@schemeidfont{-start-pos} and
@scheme[$1-end-pos], ...,
@schemeidfont{$}@math{n}@schemeidfont{-end-pos} and are also
available, and they refer to the position structures
corresponding to the start and end of the corresponding
@scheme[grammar-symbol]. Grammar symbols defined as empty-tokens
have no @schemeidfont{$}@math{i} associated, but do have
@schemeidfont{$}@math{i}@schemeidfont{-start-pos} and
@schemeidfont{$}@math{i}@schemeidfont{-end-pos}.
@item{@scheme[(yacc-output filename)] @italic{OPTIONAL}
All of the productions for a given non-terminal must be grouped
with it. That is, no @scheme[non-terminal-id] may appear twice
on the left hand side in a parser.}
causes the parser generator to write a grammar file in the
syntax of YACC/Bison. The file might not be a valid YACC file
because the scheme grammar can use symbols that are invalid in
C.}
@item{@scheme[(suppress)] @italic{OPTIONAL}
@item{@scheme[(tokens group-id ...)]
causes the parser generator not to report shift/reduce or
reduce/reduce conflicts.}
Declares that all of the tokens defined in each
@scheme[group-id] can be used by the parser in the
@scheme[grammar] declaration.}
@item{@scheme[(src-pos)] @italic{OPTIONAL}
causes the generated parser to expect input in the form
@scheme[(make-position-token token position position)] instead
of simply @scheme[token]. Include this option when using the
parser with a lexer generated with @scheme[lexer-src-pos].}
@item{@scheme[(start non-terminal-id ...)]
Declares a list of starting non-terminals for the grammar.}
@item{@scheme[(end token-id ...)]
Specifies a set of tokens from which some member must follow any
valid parse. For example, an EOF token would be specified for a
parser that parses entire files and a newline token for a parser
that parses entire lines individually.}
@item{@scheme[(error expression)]
@item{@scheme[(error expr)]
expression should evaluate to a function which will be executed
for its side-effect whenever the parser encounters an error. If
the @scheme[src-pos] option is present, the function should
accept 5 arguments, @schemeblock[(lambda (token-ok token-name
token-value start-pos end-pos) ...)]. Otherwise it should
accept 3, @schemeblock[(lambda (token-ok token-name token-value)
...)]. The first argument will be @scheme[#f] iff the error is
that an invalid token was received. The second and third
The @scheme[expr] should evaluate to a function which will be
executed for its side-effect whenever the parser encounters an
error.
If the @scheme[src-pos] declaration is present, the function
should accept 5 arguments,:
@schemeblock[(lambda (tok-ok? tok-name tok-value _start-pos _end-pos)
....)]
Otherwise it should accept 3:
@schemeblock[(lambda (tok-ok? tok-name tok-value)
....)]
The first argument will be @scheme[#f] if and only if the error
is that an invalid token was received. The second and third
arguments will be the name and the value of the token at which
the error was detected. The fourth and fifth arguments, if
present, provide the source positions of that token.}
@item{@scheme[(tokens group-name ...)]
declares that all of the tokens defined in the groups can be
handled by this parser.}
@item{@scheme[(precs (assoc token-id ...) ...)]
@italic{OPTIONAL}
@item{@scheme[(start non-terminal-name ...)]
Precedence declarations to resolve shift/reduce and
reduce/reduce conflicts as in @exec{yacc}/@exec{bison}. An
@scheme[assoc] must be one of @scheme[left], @scheme[right] or
@scheme[nonassoc]. States with multiple shift/reduce or
reduce/reduce conflicts (or some combination thereof) are not
resolved with precedence.}
declares a list of starting non-terminals for the grammar.}
@item{@scheme[(src-pos)] @italic{OPTIONAL}
@item{@scheme[(end token-name ...)]
Causes the generated parser to expect input in the form
@scheme[(make-position-token _token _start-pos _end-pos)] instead
of simply @scheme[_token]. Include this option when using the
parser with a lexer generated with @scheme[lexer-src-pos].}
specifies a set of tokens from which some member must follow any
valid parse. For example an EOF token would be specified for a
parser that parses entire files and a @nonterm{newline} token
for a parser that parses entire lines individually.}
@item{@scheme[(precs (assoc token-name ...) ...)]
@italic{OPTIONAL}
@item{@scheme[(debug filename)] @italic{OPTIONAL}
precedence declarations to resolve shift/reduce and
reduce/reduce conflicts as in YACC/BISON. @scheme[assoc] must
be one of @scheme[left], @scheme[right] or @scheme[nonassoc].
States with multiple shift/reduce or reduce/reduce conflicts or
some combination thereof are not resolved with precedence.}
Causes the parser generator to write the LALR table to the file
named @scheme[filename] (unless the file exists), where
@scheme[filename] is a literal string. Additionally, if a debug
file is specified, when a running generated parser encounters a
parse error on some input file, after the user specified error
expression returns, the complete parse stack is printed to
assist in debugging the grammar of that particular parser. The
numbers in the stack printout correspond to the state numbers in
the LALR table file.}
@item{@schemeblock0[(grammar (non-terminal ((grammar-symbol ...) (prec token-name) expression)
...)
...)]
declares the @scheme[grammar] to be parsed. Each
@scheme[grammar-symbol] must be a @scheme[token-name] or
@scheme[non-terminal]. The @scheme[prec] declaration is
optional. @scheme[expression] is a semantic action which will
be evaluated when the input is found to match its corresponding
production. Each action is scheme code that has the same scope
as its parser's definition, except that the variables
@scheme[$1], ..., @scheme[$n] are bound in the expression and
may hide outside bindings of @scheme[$1], ... @scheme[$n].
@scheme[$x] is bound to the result of the action for the
@scheme[$x]@superscript{th} grammar symbol on the right of the
production, if that grammar symbol is a non-terminal, or the
value stored in the token if the grammar symbol is a terminal.
Here @scheme[n] is the number of @scheme[grammar-symbol]s on the
right of the production. If the @scheme[src-pos] option is
present in the parser, variables @scheme[$1-start-pos], ...,
@scheme[$n-start-pos] and @scheme[$1-end-pos], ...,
@scheme[$n-end-pos] are also available and refer to the position
structures corresponding to the start and end of the
corresponding @scheme[grammar-symbol]. Grammar symbols defined
as empty-tokens have no @scheme[$n] associated, but do have
@scheme[$n-start-pos] and @scheme[$n-end-pos]. All of the
productions for a given non-terminal must be grouped with it,
i.e., no non-terminal may appear twice on the left hand side in
a parser.}
@item{@scheme[(yacc-output filename)] @italic{OPTIONAL}
}
Causes the parser generator to write a grammar file in
approximately the syntax of @exec{yacc}/@exec{bison}. The file
might not be a valid @exec{yacc} file, because the scheme
grammar can use symbols that are invalid in C.}
The result of a parser expression with one start non-terminal is a
function, @scheme[f], that takes one argument. This argument must be
a zero argument function, @scheme[t], that produces successive tokens
of the input each time it is called. If desired, the @scheme[t] may
return symbols instead of tokens. The parser will treat symbols as
tokens of the corresponding name (with @scheme[#f] as a value, so it
is usual to return symbols only in the case of empty tokens).
@scheme[f] returns the value associated with the parse tree by the
semantic actions. If the parser encounters an error, after invoking
the supplied error function, it will try to use error productions to
continue parsing. If it cannot, it raises a read error.
If multiple start non-terminals are provided, the parser expression
will result in a list of parsing functions (each one will individually
behave as if it were the result of a parser expression with only one
start non-terminal), one for each start non-terminal, in the same order.
Each time the scheme code for a lexer is compiled (e.g. when a
@filepath{.ss} file containing a @scheme[parser] form is loaded), the
parser generator is run. To avoid this overhead place the parser into
a module and compile the module to a @filepath{.zo} bytecode file.}
@item{@scheme[(suppress)] @italic{OPTIONAL}
Causes the parser generator not to report shift/reduce or
reduce/reduce conflicts.}
}
The result of a @scheme[parser] expression with one @scheme[start]
non-terminal is a function, @scheme[_parse], that takes one
argument. This argument must be a zero argument function,
@scheme[_gen], that produces successive tokens of the input each
time it is called. If desired, the @scheme[_gen] may return
symbols instead of tokens, and the parser will treat symbols as
tokens of the corresponding name (with @scheme[#f] as a value, so
it is usual to return symbols only in the case of empty tokens).
The @scheme[_parse] function returns the value associated with the
parse tree by the semantic actions. If the parser encounters an
error, after invoking the supplied error function, it will try to
use error productions to continue parsing. If it cannot, it
raises @scheme[exn:fail:read].
If multiple non-terminals are provided in @scheme[start], the
@scheme[parser] expression produces a list of parsing functions,
one for each non-terminal in the same order. Each parsing function
is like the result of a parser expression with only one
@scheme[start] non-terminal,
Each time the scheme code for a @scheme[parser] is compiled
(e.g. when a @filepath{.ss} file containing a @scheme[parser] form
is loaded), the parser generator is run. To avoid this overhead
place the parser into a module and compile the module to a
@filepath{.zo} bytecode file.}
@; ----------------------------------------------------------------------
@ -601,3 +683,6 @@ actions in the original grammar have nested blocks, the tool will fail.
Annotated examples are in the @filepath{examples} subdirectory of the
@filepath{parser-tools} collection.}
@; ----------------------------------------------------------------------
@index-section[]

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