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emacs/admin/grammars/grammar.wy
2012-01-05 01:46:05 -08:00

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;;; semantic-grammar.wy -- LALR grammar of Semantic input grammars
;;
;; Copyright (C) 2002-2012 Free Software Foundation, Inc.
;;
;; Author: David Ponce <david@dponce.com>
;; Maintainer: David Ponce <david@dponce.com>
;; Created: 26 Aug 2002
;; Keywords: syntax
;; X-RCS: $Id: semantic-grammar.wy,v 1.16 2005/09/30 20:20:27 zappo Exp $
;; This file is part of GNU Emacs.
;; GNU Emacs is free software: you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation, either version 3 of the License, or
;; (at your option) any later version.
;; GNU Emacs 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 GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
%{
(defvar semantic-grammar-lex-c-char-re)
;; Current parsed nonterminal name.
(defvar semantic-grammar-wy--nterm nil)
;; Index of rule in a nonterminal clause.
(defvar semantic-grammar-wy--rindx nil)
}
%package semantic-grammar-wy
%languagemode wy-mode
;; Main
%start grammar
;; Reparse
%start prologue epilogue declaration nonterminal rule
;; EXPANDFULL
%start put_names put_values use_names
;; Keywords
%type <keyword>
%keyword DEFAULT-PREC "%default-prec"
%keyword NO-DEFAULT-PREC "%no-default-prec"
%keyword KEYWORD "%keyword"
%keyword LANGUAGEMODE "%languagemode"
%keyword LEFT "%left"
%keyword NONASSOC "%nonassoc"
%keyword PACKAGE "%package"
%keyword PREC "%prec"
%keyword PUT "%put"
%keyword QUOTEMODE "%quotemode"
%keyword RIGHT "%right"
%keyword SCOPESTART "%scopestart"
%keyword START "%start"
%keyword TOKEN "%token"
%keyword TYPE "%type"
%keyword USE-MACROS "%use-macros"
;; Literals
%type <string>
%token <string> STRING
%type <symbol> syntax ":?\\(\\sw\\|\\s_\\)+"
%token <symbol> SYMBOL
%token <symbol> PERCENT_PERCENT "\\`%%\\'"
%type <char> syntax semantic-grammar-lex-c-char-re
%token <char> CHARACTER
%type <qlist> matchdatatype sexp syntax "\\s'\\s-*("
%token <qlist> PREFIXED_LIST
%type <sexp> matchdatatype sexp syntax "\\="
%token <sexp> SEXP
;; Don't generate these analyzers which needs special handling code.
%token <code> PROLOGUE "%{...%}"
%token <code> EPILOGUE "%%...EOF"
;; Blocks & Parenthesis
%type <block>
%token <block> PAREN_BLOCK "(LPAREN RPAREN)"
%token <block> BRACE_BLOCK "(LBRACE RBRACE)"
%token <open-paren> LPAREN "("
%token <close-paren> RPAREN ")"
%token <open-paren> LBRACE "{"
%token <close-paren> RBRACE "}"
;; Punctuations
%type <punctuation>
%token <punctuation> COLON ":"
%token <punctuation> SEMI ";"
%token <punctuation> OR "|"
%token <punctuation> LT "<"
%token <punctuation> GT ">"
%%
grammar:
prologue
| epilogue
| declaration
| nonterminal
| PERCENT_PERCENT
;
;;; Prologue/Epilogue
;;
prologue:
PROLOGUE
(CODE-TAG "prologue" nil)
;
epilogue:
EPILOGUE
(CODE-TAG "epilogue" nil)
;
;;; Declarations
;;
declaration:
decl
(eval $1)
;
decl:
default_prec_decl
| no_default_prec_decl
| languagemode_decl
| package_decl
| precedence_decl
| put_decl
| quotemode_decl
| scopestart_decl
| start_decl
| keyword_decl
| token_decl
| type_decl
| use_macros_decl
;
default_prec_decl:
DEFAULT-PREC
`(TAG "default-prec" 'assoc :value '("t"))
;
no_default_prec_decl:
NO-DEFAULT-PREC
`(TAG "default-prec" 'assoc :value '("nil"))
;
languagemode_decl:
LANGUAGEMODE symbols
`(TAG ',(car $2) 'languagemode :rest ',(cdr $2))
;
package_decl:
PACKAGE SYMBOL
`(PACKAGE-TAG ',$2 nil)
;
precedence_decl:
associativity token_type_opt items
`(TAG ',$1 'assoc :type ',$2 :value ',$3)
;
associativity:
LEFT
(progn "left")
| RIGHT
(progn "right")
| NONASSOC
(progn "nonassoc")
;
put_decl:
PUT put_name put_value
`(TAG ',$2 'put :value ',(list $3))
| PUT put_name put_value_list
`(TAG ',$2 'put :value ',$3)
| PUT put_name_list put_value
`(TAG ',(car $2) 'put :rest ',(cdr $2) :value ',(list $3))
| PUT put_name_list put_value_list
`(TAG ',(car $2) 'put :rest ',(cdr $2) :value ',$3)
;
put_name_list:
BRACE_BLOCK
(mapcar 'semantic-tag-name (EXPANDFULL $1 put_names))
;
put_names:
LBRACE
()
| RBRACE
()
| put_name
;; Must return a list of Semantic tags to EXPANDFULL!
(TAG $1 'put-name)
;
put_name:
SYMBOL
| token_type
;
put_value_list:
BRACE_BLOCK
(mapcar 'semantic-tag-code-detail (EXPANDFULL $1 put_values))
;
put_values:
LBRACE
()
| RBRACE
()
| put_value
;; Must return a list of Semantic tags to EXPANDFULL!
(CODE-TAG "put-value" $1)
;
put_value:
SYMBOL any_value
(cons $1 $2)
;
scopestart_decl:
SCOPESTART SYMBOL
`(TAG ',$2 'scopestart)
;
quotemode_decl:
QUOTEMODE SYMBOL
`(TAG ',$2 'quotemode)
;
start_decl:
START symbols
`(TAG ',(car $2) 'start :rest ',(cdr $2))
;
keyword_decl:
KEYWORD SYMBOL string_value
`(TAG ',$2 'keyword :value ',$3)
;
token_decl:
TOKEN token_type_opt SYMBOL string_value
`(TAG ',$3 ',(if $2 'token 'keyword) :type ',$2 :value ',$4)
| TOKEN token_type_opt symbols
`(TAG ',(car $3) 'token :type ',$2 :rest ',(cdr $3))
;
token_type_opt:
;; EMPTY
| token_type
;
token_type:
LT SYMBOL GT
(progn $2)
;
type_decl:
TYPE token_type plist_opt
`(TAG ',$2 'type :value ',$3)
;
plist_opt:
;;EMPTY
| plist
;
plist:
plist put_value
(append (list $2) $1)
| put_value
(list $1)
;
use_name_list:
BRACE_BLOCK
(mapcar 'semantic-tag-name (EXPANDFULL $1 use_names))
;
use_names:
LBRACE
()
| RBRACE
()
| SYMBOL
;; Must return a list of Semantic tags to EXPANDFULL!
(TAG $1 'use-name)
;
use_macros_decl:
USE-MACROS SYMBOL use_name_list
`(TAG "macro" 'macro :type ',$2 :value ',$3)
;
string_value:
STRING
(read $1)
;
;; Return a Lisp readable form
any_value:
SYMBOL
| STRING
| PAREN_BLOCK
| PREFIXED_LIST
| SEXP
;
symbols:
lifo_symbols
(nreverse $1)
;
lifo_symbols:
lifo_symbols SYMBOL
(cons $2 $1)
| SYMBOL
(list $1)
;
;;; Grammar rules
;;
nonterminal:
SYMBOL
(setq semantic-grammar-wy--nterm $1
semantic-grammar-wy--rindx 0)
COLON rules SEMI
(TAG $1 'nonterminal :children $4)
;
rules:
lifo_rules
(apply 'nconc (nreverse $1))
;
lifo_rules:
lifo_rules OR rule
(cons $3 $1)
| rule
(list $1)
;
rule:
rhs
(let* ((nterm semantic-grammar-wy--nterm)
(rindx semantic-grammar-wy--rindx)
(rhs $1)
comps prec action elt)
(setq semantic-grammar-wy--rindx (1+ semantic-grammar-wy--rindx))
(while rhs
(setq elt (car rhs)
rhs (cdr rhs))
(cond
;; precedence level
((vectorp elt)
(if prec
(error "Duplicate %%prec in `%s:%d' rule" nterm rindx))
(setq prec (aref elt 0)))
;; action
((consp elt)
;; don't forget that rhs items are in reverse order, so
;; the end-of-rule semantic action is the first item.
(if (or action comps)
;; a mid-rule action
(setq comps (cons elt comps)
;; keep rule and action index synchronized
semantic-grammar-wy--rindx
(1+ semantic-grammar-wy--rindx))
;; the end-of-rule action
(setq action (car elt))))
;; item
(t
(setq comps (cons elt comps)))))
(EXPANDTAG
(TAG (format "%s:%d" nterm rindx) 'rule
:type (if comps "group" "empty")
:value comps :prec prec :expr action)))
;
rhs:
;; EMPTY
| rhs item
(cons $2 $1)
| rhs action
(cons (list $2) $1)
| rhs PREC item
(cons (vector $3) $1)
;
action:
PAREN_BLOCK
| PREFIXED_LIST
| BRACE_BLOCK
(format "(progn\n%s)"
(let ((s $1))
(if (string-match "^{[\r\n\t ]*" s)
(setq s (substring s (match-end 0))))
(if (string-match "[\r\n\t ]*}$" s)
(setq s (substring s 0 (match-beginning 0))))
s))
;
items:
lifo_items
(nreverse $1)
;
lifo_items:
lifo_items item
(cons $2 $1)
| item
(list $1)
;
item:
SYMBOL
| CHARACTER
;
%%
;;; grammar.wy ends here