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emacs/lisp/cedet/semantic/db-javascript.el
Stefan Monnier 4c6554413d EIEIO: Promote the CLOS behavior over the EIEIO-specific behavior 
Change docs to advertize `slot-value` rather than `oref`.
Change the implementation of `:initform` to better match the CLOS semantics,
while preserving the EIEIO semantics, but warn when encountering cases
where the two diverge.
Demote the mostly unused special semantics of `oref-default`
on non-class allocated slots.

* doc/misc/eieio.texi (Quick Start): Use `slot-value`.
(Accessing Slots): Move `slot-value` before `oref`.
Fix paren-typo in example (reported by pillule <pillule@riseup.net>).
(Introspection): Remove mention of `class-slot-initarg`.

* lisp/transient.el (transient--parse-group, transient--parse-suffix):
Don't use `oref-default` to get the default value.
(transient-lisp-variable): Init forms are evaluated.

* lisp/emacs-lisp/eieio.el (defclass): Warn about inapplicable
`:initarg` and about uses of init forms that are ambiguous.
(oref): Don't advertize the deprecated use of initargs as slot names.
(oref-default): Don't advertize the deprecated case where it returns the
initform's value.
(initialize-instance): Use `macroexp-const-p`.
* lisp/emacs-lisp/eieio-core.el (eieio--unbound): Rename from
`eieio-unbound`.
(eieio--unbound-form): New var.
(eieio--slot-override): Use it.
(eieio-defclass-internal): Use it.  Change `init` so it should always
be evaluated.
(eieio--known-class-slot-names): New var.
(eieio--eval-default-p): Rename from `eieio-eval-default-p`.
(eieio--perform-slot-validation-for-default): Use `macroexp-const-p` to
decide whether to skip the test.
(eieio--add-new-slot): Register slot in `eieio--known-class-slot-names`
when applicable.
(eieio-oref-default, eieio-oset-default): Add warning for unknown slots
and slots not known to be allocated to the class.
(eieio-default-eval-maybe): Delete function.  Use just `eval` instead.
(eieio-declare-slots): Allow slots to specify their allocation class.

* lisp/cedet/srecode/insert.el (point): Declare the slot instead of
moving the class definition before the slot's first use.
(srecode-template-inserter-point, srecode-insert-fcn):
Use nil instead of unbound for the `point` slot.

* lisp/cedet/srecode/compile.el (srecode-template-inserter):
Declare the `key` slot that all children should have.

* lisp/emacs-lisp/eieio-speedbar.el (eieio-speedbar)
(eieio-speedbar-directory-button, eieio-speedbar-file-button):
* lisp/emacs-lisp/eieio-custom.el (eieio-widget-test-class):
* lisp/emacs-lisp/chart.el (chart-bar):
* lisp/cedet/semantic/ede-grammar.el (semantic-ede-proj-target-grammar):
* lisp/cedet/semantic/db.el (semanticdb-project-database):
* lisp/cedet/semantic/db-javascript.el (semanticdb-table-javascript)
(semanticdb-project-database-javascript):
* lisp/cedet/semantic/db-el.el (semanticdb-table-emacs-lisp)
(semanticdb-project-database-emacs-lisp):
* lisp/cedet/semantic/db-ebrowse.el (semanticdb-table-ebrowse)
(semanticdb-project-database-ebrowse):
* lisp/cedet/ede/proj.el (ede-proj-project):
* lisp/cedet/ede/proj-obj.el (ede-proj-target-makefile-objectcode):
* lisp/cedet/ede/generic.el (ede-generic-project):
* lisp/cedet/ede/config.el (ede-project-with-config):
* lisp/cedet/ede/base.el (ede-target, ede-project):
* lisp/auth-source.el (auth-source-backend): Init forms are evaluated,
so quote them accordingly.
2021-06-12 16:22:03 -04:00

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;;; semantic/db-javascript.el --- Semantic database extensions for javascript -*- lexical-binding: t; -*-
;; Copyright (C) 2002-2021 Free Software Foundation, Inc.
;; Author: Joakim Verona
;; 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 <https://www.gnu.org/licenses/>.
;;; Commentary:
;;
;; Semanticdb database for Javascript.
;;
;; This is an omniscient database with a hard-coded list of symbols for
;; Javascript. See the doc at the end of this file for adding or modifying
;; the list of tags.
;;
(require 'semantic/db)
(require 'semantic/db-find)
(eval-when-compile
;; For generic function searching.
(require 'eieio)
(require 'eieio-opt))
;;; Code:
(defvar semanticdb-javascript-tags
'(("eval" function
(:arguments
(("x" variable nil nil nil)))
nil nil)
("parseInt" function
(:arguments
(("string" variable nil nil nil)
("radix" variable nil nil nil)))
nil nil)
("parseFloat" function
(:arguments
(("string" variable nil nil nil)))
nil nil)
("isNaN" function
(:arguments
(("number" variable nil nil nil)))
nil nil)
("isFinite" function
(:arguments
(("number" variable nil nil nil)))
nil nil)
("decodeURI" function
(:arguments
(("encodedURI" variable nil nil nil)))
nil nil)
("decodeURIComponent" function
(:arguments
(("encodedURIComponent" variable nil nil nil)))
nil nil)
("encodeURI" function
(:arguments
(("uri" variable nil nil nil)))
nil nil)
("encodeURIComponent" function
(:arguments
(("uriComponent" variable nil nil nil)))
nil nil))
"Hard-coded list of javascript tags for semanticdb.
See bottom of this file for instructions on managing this list.")
;;; Classes:
(defclass semanticdb-table-javascript (semanticdb-search-results-table)
((major-mode :initform #'javascript-mode)
)
"A table for returning search results from javascript.")
(defclass semanticdb-project-database-javascript
(semanticdb-project-database
eieio-singleton ;this db is for js globals, so singleton is appropriate
)
((new-table-class :initform 'semanticdb-table-javascript
:type class
:documentation
"New tables created for this database are of this class.")
)
"Database representing javascript.")
;; Create the database, and add it to searchable databases for javascript mode.
(defvar-mode-local javascript-mode semanticdb-project-system-databases
(list
(semanticdb-project-database-javascript))
"Search javascript for symbols.")
;; NOTE: Be sure to modify this to the best advantage of your
;; language.
(defvar-mode-local javascript-mode semanticdb-find-default-throttle
'(project omniscience)
"Search project files, then search this omniscience database.
It is not necessary to do system or recursive searching because of
the omniscience database.")
;;; Filename based methods
;;
(cl-defmethod semanticdb-get-database-tables ((obj semanticdb-project-database-javascript))
"For a javascript database, there are no explicit tables.
Create one of our special tables that can act as an intermediary."
;; NOTE: This method overrides an accessor for the `tables' slot in
;; a database. You can either construct your own (like newtable here
;; or you can manage any number of tables.
;; We need to return something since there is always the "master table"
;; The table can then answer file name type questions.
(when (not (slot-boundp obj 'tables))
(let ((newtable (semanticdb-table-javascript)))
(oset obj tables (list newtable))
(oset newtable parent-db obj)
(oset newtable tags nil)
))
(cl-call-next-method)
)
(cl-defmethod semanticdb-file-table ((obj semanticdb-project-database-javascript) _filename)
"From OBJ, return FILENAME's associated table object."
;; NOTE: See not for `semanticdb-get-database-tables'.
(car (semanticdb-get-database-tables obj))
)
(cl-defmethod semanticdb-get-tags ((_table semanticdb-table-javascript ))
"Return the list of tags belonging to TABLE."
;; NOTE: Omniscient databases probably don't want to keep large tables
;; lolly-gagging about. Keep internal Emacs tables empty and
;; refer to alternate databases when you need something.
semanticdb-javascript-tags)
(cl-defmethod semanticdb-equivalent-mode ((_table semanticdb-table-javascript) &optional buffer)
"Return non-nil if TABLE's mode is equivalent to BUFFER.
Equivalent modes are specified by the `semantic-equivalent-major-modes'
local variable."
(with-current-buffer buffer
(eq (or mode-local-active-mode major-mode) 'javascript-mode)))
;;; Usage
;;
;; Unlike other tables, an omniscient database does not need to
;; be associated with a path. Use this routine to always add ourselves
;; to a search list.
(define-mode-local-override semanticdb-find-translate-path javascript-mode
(path brutish)
"Return a list of semanticdb tables associated with PATH.
If brutish, do the default action.
If not brutish, do the default action, and append the system
database (if available.)"
(let ((default
;; When we recurse, disable searching of system databases
;; so that our Javascript database only shows up once when
;; we append it in this iteration.
(let ((semanticdb-search-system-databases nil)
)
(semanticdb-find-translate-path-default path brutish))))
;; Don't add anything if BRUTISH is on (it will be added in that fcn)
;; or if we aren't supposed to search the system.
(if (or brutish (not semanticdb-search-system-databases))
default
(let ((tables (apply #'append
(mapcar
(lambda (db) (semanticdb-get-database-tables db))
semanticdb-project-system-databases))))
(append default tables)))))
;;; Search Overrides
;;
;; NOTE WHEN IMPLEMENTING: Be sure to add doc-string updates explaining
;; how your new search routines are implemented.
;;
(defun semanticdb-javascript-regexp-search (regexp)
"Search for REGEXP in our fixed list of javascript tags."
(let* ((tags semanticdb-javascript-tags)
(result nil))
(while tags
(if (string-match regexp (caar tags))
(setq result (cons (car tags) result)))
(setq tags (cdr tags)))
result))
(cl-defmethod semanticdb-find-tags-by-name-method
((_table semanticdb-table-javascript) name &optional tags)
"Find all tags named NAME in TABLE.
Return a list of tags."
(if tags
;; If TAGS are passed in, then we don't need to do work here.
(cl-call-next-method)
(assoc-string name semanticdb-javascript-tags)
))
(cl-defmethod semanticdb-find-tags-by-name-regexp-method
((_table semanticdb-table-javascript) regex &optional tags)
"Find all tags with name matching REGEX in TABLE.
Optional argument TAGS is a list of tags to search.
Return a list of tags."
(if tags (cl-call-next-method)
;; YOUR IMPLEMENTATION HERE
(semanticdb-javascript-regexp-search regex)
))
(cl-defmethod semanticdb-find-tags-for-completion-method
((_table semanticdb-table-javascript) prefix &optional tags)
"In TABLE, find all occurrences of tags matching PREFIX.
Optional argument TAGS is a list of tags to search.
Returns a table of all matching tags."
(if tags (cl-call-next-method)
;; YOUR IMPLEMENTATION HERE
(semanticdb-javascript-regexp-search (concat "^" prefix ".*"))
))
(cl-defmethod semanticdb-find-tags-by-class-method
((_table semanticdb-table-javascript) _class &optional tags)
"In TABLE, find all occurrences of tags of CLASS.
Optional argument TAGS is a list of tags to search.
Returns a table of all matching tags."
(if tags (cl-call-next-method)
;; YOUR IMPLEMENTATION HERE
;;
;; Note: This search method could be considered optional in an
;; omniscient database. It may be unwise to return all tags
;; that exist for a language that are a variable or function.
;;
;; If it is optional, you can just delete this method.
nil))
;;; Deep Searches
;;
;; If your language does not have a `deep' concept, these can be left
;; alone, otherwise replace with implementations similar to those
;; above.
;;
(cl-defmethod semanticdb-deep-find-tags-by-name-method
((table semanticdb-table-javascript) name &optional tags)
"Find all tags name NAME in TABLE.
Optional argument TAGS is a list of tags to search.
Like `semanticdb-find-tags-by-name-method' for javascript."
(semanticdb-find-tags-by-name-method table name tags))
(cl-defmethod semanticdb-deep-find-tags-by-name-regexp-method
((table semanticdb-table-javascript) regex &optional tags)
"Find all tags with name matching REGEX in TABLE.
Optional argument TAGS is a list of tags to search.
Like `semanticdb-find-tags-by-name-method' for javascript."
(semanticdb-find-tags-by-name-regexp-method table regex tags))
(cl-defmethod semanticdb-deep-find-tags-for-completion-method
((table semanticdb-table-javascript) prefix &optional tags)
"In TABLE, find all occurrences of tags matching PREFIX.
Optional argument TAGS is a list of tags to search.
Like `semanticdb-find-tags-for-completion-method' for javascript."
(semanticdb-find-tags-for-completion-method table prefix tags))
;;; Advanced Searches
;;
(cl-defmethod semanticdb-find-tags-external-children-of-type-method
((_table semanticdb-table-javascript) _type &optional tags)
"Find all nonterminals which are child elements of TYPE.
Optional argument TAGS is a list of tags to search.
Return a list of tags."
(if tags (cl-call-next-method)
;; YOUR IMPLEMENTATION HERE
;;
;; OPTIONAL: This could be considered an optional function. It is
;; used for `semantic-adopt-external-members' and may not
;; be possible to do in your language.
;;
;; If it is optional, you can just delete this method.
))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
(defun semanticdb-javascript-strip-tags (tags)
"Strip TAGS from overlays and reparse symbols."
(cond ((and (consp tags) (eq 'reparse-symbol (car tags)))
nil)
((overlayp tags) nil)
((atom tags) tags)
(t (cons (semanticdb-javascript-strip-tags
(car tags)) (semanticdb-javascript-strip-tags
(cdr tags))))))
;this list was made from a javascript file, and the above function
;; function eval(x){}
;; function parseInt(string,radix){}
;; function parseFloat(string){}
;; function isNaN(number){}
;; function isFinite(number){}
;; function decodeURI(encodedURI){}
;; function decodeURIComponent (encodedURIComponent){}
;; function encodeURI (uri){}
;; function encodeURIComponent (uriComponent){}
(provide 'semantic/db-javascript)
;;; semantic/db-javascript.el ends here
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