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hact.el
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;;; hact.el --- GNU Hyperbole button action handling -*- lexical-binding: t; -*-
;;
;; Author: Bob Weiner
;;
;; Orig-Date: 18-Sep-91 at 02:57:09
;; Last-Mod: 17-Aug-24 at 15:09:52 by Bob Weiner
;;
;; SPDX-License-Identifier: GPL-3.0-or-later
;;
;; Copyright (C) 1991-2024 Free Software Foundation, Inc.
;; See the "HY-COPY" file for license information.
;;
;; This file is part of GNU Hyperbole.
;;; Commentary:
;;; Code:
;;; ************************************************************************
;;; Other required Elisp libraries
;;; ************************************************************************
(eval-and-compile (mapc #'require '(hhist set)))
;;; ************************************************************************
;;; Public declarations
;;; ************************************************************************
(declare-function hattr:get "hbut")
(declare-function hattr:list "hbut")
(declare-function hattr:set "hbut")
(declare-function hbut:is-p "hbut")
(declare-function hpath:absolute-arguments "hpath")
(declare-function hypb:indirect-function "hypb")
(declare-function hargs:read-match "hargs")
;;; ************************************************************************
;;; Public variables
;;; ************************************************************************
(defvar hrule:action 'actype:act
"Value is a function of any number of arguments that executes actions.
Variable is used to vary actual effect of evaluating a Hyperbole action,
e.g. to inhibit actions.")
;;; ************************************************************************
;;; Public functions
;;; ************************************************************************
;;; ========================================================================
;;; symtable class - Hyperbole unordered symbol tables with fast lookup
;;; ========================================================================
(defvar symtable:category-plist nil
"Property list mapping Hyperbole type category symbols to symtables.
The type categories are either `actypes' or `ibtypes'.")
(defsubst symtable:hash-table (symtable)
"Return the hash-table containing symbol names and values from SYMTABLE."
(plist-get symtable 'hash-table))
(defsubst symtable:name (symtable)
"Return the name of SYMTABLE as a string."
(plist-get symtable 'name))
(defsubst symtable:select (type-category)
"Inline the return of the symtable for TYPE-CATEGORY.
TYPE-CATEGORY is one of `actypes' or `ibtypes'."
(plist-get symtable:category-plist type-category))
(defun symtable:operate (operation symbol-or-name symtable)
"Call hash-table OPERATION with Hyperbole SYMBOL-OR-NAME key for SYMTABLE.
Trigger an error if SYMBOL-OR-NAME cannot be mapped to an existing Elisp
symbol or if SYMTABLE is invalid."
(let ((name (cond ((stringp symbol-or-name)
symbol-or-name)
((symbolp symbol-or-name)
(symbol-name symbol-or-name))
(t (error "(symtable:operate): Invalid type for symbol-or-name: %s" symbol-or-name))))
(hash-table (plist-get symtable 'hash-table))
(intern-op (if (eq operation #'puthash) #'intern #'intern-soft))
def-name elisp-name elisp-symbol)
(unless hash-table
(error "(symtable:operate): symtable lacks required hash-table property: %s" symtable))
(if (string-match "\\`\\(actypes\\|ibtypes\\)::" name)
(setq def-name (substring name (match-end 0))
elisp-name name
elisp-symbol (funcall intern-op elisp-name))
(setq def-name name
elisp-name (concat (symtable:name symtable) "::" name)
elisp-symbol (funcall intern-op elisp-name)))
;; Comment this out so can look for and try to remove symbols not yet defined.
;; (unless elisp-symbol
;; (error "(symtable:operate): Use `%s' to create a new type named `%s' before using `%s' on it"
;; (if (equal (plist-get symtable 'name) "actypes") "defact" "defib")
;; def-name
;; operation))
(pcase operation
('gethash
(funcall operation def-name hash-table))
('remhash
(funcall operation elisp-name hash-table)
(funcall operation def-name hash-table))
('puthash
(funcall operation elisp-name elisp-symbol hash-table)
(funcall operation def-name elisp-symbol hash-table)
(gethash def-name hash-table))
(_ (error "(symtable:operate): Invalid operation request: %s" operation)))))
(defun symtable:create (name size)
"Create and return a new Hyperbole type symbol table with NAME and SIZE.
Also add it under the symbol for its NAME in `symtable:category-plist'."
(let ((symtable (list 'name name
'hash-table (make-hash-table :test #'equal :size size))))
(setq symtable:category-plist (plist-put symtable:category-plist (intern name) symtable))
symtable))
(defvar symtable:actypes (symtable:create "actypes" 97)
"Symbol table (hash table) of Hyperbole action type symbols.
For each actype, there are two entries whose keys are strings: one
with the `actypes::' prefix and one without. The value for both
keys is the Elisp symbol for the type, which includes the prefix.")
(defvar symtable:ibtypes (symtable:create "ibtypes" 97)
"Symbol table (hash table) of Hyperbole implicit button type symbols.
For each ibtype, there are two entries whose keys are strings: one
with the `ibtypes::' prefix and one without. The value for both
keys is the Elisp symbol for the type, which includes the prefix.")
(defsubst symtable:actype-p (symbol-or-name)
"Return Elisp symbol for SYMBOL-OR-NAME if a Hyperbole action type.
May also be an Elisp function. Otherwise, return nil."
(when (or (symbolp symbol-or-name) (stringp symbol-or-name))
(or (symtable:get symbol-or-name symtable:actypes)
(and (stringp symbol-or-name) (fboundp (intern-soft symbol-or-name))
(intern-soft symbol-or-name))
(and (functionp symbol-or-name) symbol-or-name))))
(defsubst symtable:hyperbole-actype-p (symbol-or-name)
"Return Elisp symbol for SYMBOL-OR-NAME if a Hyperbole action type, else nil.
This excludes Emacs Lisp functions which may be used as action types.
Use `actype:elisp-symbol' to include these."
(when (or (symbolp symbol-or-name) (stringp symbol-or-name))
(or (symtable:get symbol-or-name symtable:actypes))))
(defsubst symtable:ibtype-p (symbol-or-name)
"Return Elisp symbol for SYMBOL-OR-NAME if it is a Hyperbole ibtype, else nil."
(when (or (symbolp symbol-or-name) (stringp symbol-or-name))
(symtable:get symbol-or-name symtable:ibtypes)))
(defun symtable:add (symbol-or-name symtable)
"Add Hyperbole SYMBOL-OR-NAME to existing SYMTABLE.
Return the Elisp symbol for SYMBOL-OR-NAME.
Caller must ensure SYMBOL-OR-NAME is a symbol or string."
(symtable:operate #'puthash symbol-or-name symtable))
(defalias 'symtable:delete #'symtable:remove)
(defun symtable:get (symbol-or-name symtable)
"Return Elisp symbol for Hyperbole SYMBOL-OR-NAME if it is in SYMTABLE.
Otherwise, return nil. Caller must ensure SYMBOL-OR-NAME is a symbol
or string."
(symtable:operate #'gethash symbol-or-name symtable))
(defun symtable:remove (symbol-or-name symtable)
"Remove the Hyperbole SYMBOL-OR-NAME if it is in SYMTABLE.
Always return nil.
Caller must ensure SYMBOL-OR-NAME is a symbol or string."
(symtable:operate #'remhash symbol-or-name symtable))
;;; ========================================================================
;;; symset class - Hyperbole internal ordered symbol sets
;;; ========================================================================
(defun symset:create (symbol property &rest symbols)
"Set SYMBOL's PROPERTY to a new symset created from any number of SyMBOLS.
If no SYMBOLS are given, set it to the empty set. Return the symset. Uses
`eq' for comparison."
(let* ((set:equal-op 'eq)
(first (car symbols)))
(when (and symbols first (listp first))
(setq symbols first))
(put symbol property (apply #'set:create symbols))))
(defun symset:add (elt symbol property)
"Add ELT to SYMBOL's PROPERTY set.
Return PROPERTY's value unless ELT is already in the set, then return nil.
Use `eq' for comparison."
(let* ((set (get symbol property))
(set:equal-op 'eq)
(new-set (set:add elt set)))
(when new-set
(put symbol property new-set))))
(defun symset:clear (symbol)
"Set SYMBOL's symset to nil."
(setf (symbol-plist symbol) nil))
(defalias 'symset:delete #'symset:remove)
(defun symset:get (symbol property)
"Return SYMBOL's PROPERTY set."
(get symbol property))
(defun symset:remove (elt symbol property)
"Remove ELT from SYMBOL's PROPERTY set and return the new set.
Assume PROPERTY is a valid set. Use `eq' for comparison."
(let ((set (get symbol property))
(set:equal-op 'eq))
(put symbol property (set:remove elt set))))
;;; ========================================================================
;;; htype class - Hyperbole Types, e.g. action and implicit button types
;;; ========================================================================
(defun htype:body (htype-sym)
"Return body for HTYPE-SYM. If HTYPE-SYM is nil, return nil."
(and htype-sym (hypb:indirect-function htype-sym)))
(defun htype:category (type-category)
"Return list of symbols in Hyperbole TYPE-CATEGORY in priority order.
Symbols contain category component.
TYPE-CATEGORY should be `actypes', `ibtypes' or nil for all."
(let ((def-symbols (symset:get type-category 'symbols))
(symtable (symtable:select type-category)))
;; Expand def-symbols to Elisp symbols by adding prefix
(when (and def-symbols symtable)
(mapcar (lambda (sym) (symtable:get sym symtable)) def-symbols))))
;; Thanks to JWZ for help on this.
(defmacro htype:create (type type-category doc params body property-list)
"Create a new Hyperbole TYPE within TYPE-CATEGORY (both unquoted symbols).
Third arg DOC is a string describing the type.
Fourth arg PARAMS is a list of parameters to send to the fifth arg BODY,
which is a list of forms executed when the type is evaluated.
Sixth arg PROPERTY-LIST is attached to the new type's symbol.
Return the new function symbol derived from TYPE."
(when (null type)
(error "(htype:create): `type' must not be null"))
(let* ((sym (htype:symbol type type-category))
(action (nconc (list 'defun sym params doc) body)))
`(progn
,action
(setplist ',sym '(definition-name ,type ,@property-list))
(symset:add ',type ',type-category 'symbols)
(run-hooks 'htype-create-hook)
',sym)))
(defun htype:def-symbol (type)
"Return the abbreviated symbol used in the definition of a Hyperbole TYPE.
TYPE may be either an implicit button type or action type. It may be
given as a string or a symbol."
(let ((name (if (stringp type)
type
(symbol-name type))))
(when (string-match "\\`\\(ib\\|ac\\)types::" name)
(intern (substring name (match-end 0))))))
(defun htype:delete (type type-category)
"Delete a Hyperbole TYPE derived from TYPE-CATEGORY (both symbols).
Return the Hyperbole symbol for the TYPE if it existed, else nil."
(let* ((sym (htype:symbol type type-category))
(exists (fboundp sym)))
(setplist sym nil)
(symtable:delete type (symtable:select type-category))
(symset:delete type type-category 'symbols)
(fmakunbound sym)
(run-hooks 'htype-delete-hook)
(and exists sym)))
(defun htype:doc (type)
"Return documentation for Hyperbole TYPE, a symbol."
(documentation type))
(defun htype:names (type-category &optional sym)
"Return a list of current definition names for TYPE-CATEGORY in priority order.
Definition names do not contain the category prefix.
TYPE-CATEGORY should be `actypes', `ibtypes' or nil for all.
When optional SYM is given, return the name for that symbol only, if any."
(let ((types (symset:get type-category 'symbols))
(sym-name (when sym (symbol-name sym))))
(if sym-name
;; Strip category from sym-name before looking for a match.
(progn (when (string-match "::" sym-name)
(setq sym (intern (substring sym-name (match-end 0)))))
(when (symtable:get sym (symtable:select type-category))
(symbol-name sym)))
(mapcar #'symbol-name types))))
;;; ------------------------------------------------------------------------
;;;###autoload
(defun htype:symbol (type type-category)
"Return possibly new Hyperbole type symbol composed from TYPE and TYPE-CATEGORY.
TYPE and TYPE-CATEGORY are both symbols. TYPE-CATEGORY must be one of
`actypes' or `ibtypes'; if not, return nil."
(when (memq type-category '(actypes ibtypes))
(intern (concat (symbol-name type-category) "::" (symbol-name type)))))
;;; ========================================================================
;;; action class
;;; ========================================================================
(defun action:commandp (function)
"Return interactive calling form if FUNCTION has one, else nil."
(let ((action
(cond ((null function) nil)
((symbolp function)
(and (fboundp function)
(hypb:indirect-function function)))
((and (listp function)
(eq (car function) 'autoload))
(error "(action:commandp): Autoload not supported: %s" function))
(t function))))
(cond ((and action (fboundp 'interactive-form))
(interactive-form action))
((byte-code-function-p action)
(cond ((fboundp 'compiled-function-interactive)
(compiled-function-interactive action))
((commandp action)
(list 'interactive (aref action 5)))))
(t (commandp action)))))
(defun action:create (param-list body)
"Create Hyperbole action defined by PARAM-LIST and BODY, a list of Lisp forms."
(if (symbolp body)
body
(list 'function (cons 'lambda (cons param-list body)))))
(defun action:kbd-macro (macro &optional repeat-count)
"Return Hyperbole action that execute a keyboard MACRO REPEAT-COUNT times."
(list 'execute-kbd-macro macro repeat-count))
(defun action:params-emacs (def)
"Return the argument list for the function DEF.
DEF may be a symbol or a function body."
(let ((params (help-function-arglist def t)))
(cond ((listp params) ;; includes nil
params)
((stringp params)
(when (and (autoloadp def) (not (eq (nth 4 def) 'keymap)))
;; Force autoload to get function signature.
(setq def (autoload-do-load def))
(unless (autoloadp def)
(action:params-emacs def))))
(t
(error "(action:params-emacs): Construct not supported: %s" def)))))
(defun action:params (action)
"Return unmodified ACTION parameter list.
Autoloads action function if need be to get the parameter list."
(when (and (symbolp action) (fboundp action))
(setq action (hypb:indirect-function action)))
(cond ((null action) nil)
((fboundp 'help-function-arglist)
(help-function-arglist action t))
((listp action)
(cond ((eq (car action) 'closure)
(nth 2 action))
((eq (car action) 'autoload)
(error "(action:params): Autoload not supported: %s" action))
(t (car (cdr action)))))
((byte-code-function-p action)
(if (fboundp 'compiled-function-arglist)
(compiled-function-arglist action)
(action:params-emacs action)))
((symbolp action)
(car (cdr (and (fboundp action) (hypb:indirect-function action)))))
((and (fboundp 'closurep) (closurep action))
(aref action 0))))
(defun action:param-list (action)
"Return list of actual ACTION parameters (remove `&' special forms)."
(delq nil (mapcar (lambda (param)
(if (eq (aref (symbol-name param) 0) ?&)
nil param))
(action:params action))))
;;; ========================================================================
;;; action type class, actype
;;; ========================================================================
(defun hact (&rest args)
"Perform action formed from rest of ARGS and return the result.
The value of `hrule:action' determines what effect this has. The
default for `hrule:action' is `actype:act' which returns the
result of the action unless it is nil, in which case t is
returned instead, to ensure that implicit button types register
the performance of the action.
Alternatively act as a no-op when testing implicit button type contexts.
First arg may be a symbol or symbol name for either an action type or a
function. Runs `action-act-hook' before performing action."
;; (message "hact args: %S" args)
(hattr:set 'hbut:current 'actype (actype:elisp-symbol (car args)))
(apply hrule:action args))
(defun actype:act (actype &rest args)
"Perform action formed from ACTYPE and rest of ARGS and return value.
If value is nil, however, t is returned instead, to ensure that implicit button
types register the performance of the action. ACTYPE may be a symbol or symbol
name for either an action type or a function. Runs `action-act-hook' before
performing ACTION."
(when (null actype)
(error "(actype:act): No action type specified"))
(let ((prefix-arg current-prefix-arg)
(action (actype:action actype)))
(if (null action)
(error "(actype:act): Null action for action type: `%s'" actype)
;; Next 2 lines are needed so that relative paths are expanded
;; properly. But in rare cases, this can improperly expand simple
;; string arguments like "tags" as a pathname, when it is not
;; being used as a path. So do this only if actype is a defact
;; and not a defun to limit any potential impact. RSW - 9/22/2017
(and (symbolp action)
(symtable:hyperbole-actype-p action)
(setq args (hpath:absolute-arguments actype args)))
(let ((hist-elt (hhist:element)))
(run-hooks 'action-act-hook)
(prog1 (or (when (and (fboundp 'closurep) (closurep action))
(apply action args))
(if (or (symbolp action) (listp action)
(byte-code-function-p action)
(subrp action)
(and (stringp action) (not (integerp action))
(setq action (key-binding action))))
(eval (cons action args))
(eval action))
t)
(hhist:add hist-elt))))))
(defun actype:def-symbol (actype)
"Return the abbreviated symbol for ACTYPE used in its `defact'.
ACTYPE must be a symbol or string that begins with `actype::' or nil
is returned."
(let ((name (if (stringp actype)
actype
(symbol-name actype))))
(when (string-match "\\`actypes::" name)
(intern (substring name (match-end 0))))))
;; Return the full Elisp symbol for ACTYPE, which may be a string or symbol.
(defalias 'actype:elisp-symbol #'symtable:actype-p)
(defun actype:eval (actype &rest args)
"Perform action formed from ACTYPE and rest of ARGS and return value.
This differs from `actype:act' in that it can return nil and does not
expand relative pathname ARGS.
ACTYPE may be a string containing a Lisp expression from which ACTYPE
and ARGS are extracted. ACTYPE may be a symbol or symbol name for
either an action type or a function. Run `action-act-hook' before
performing ACTION."
(let ((prefix-arg current-prefix-arg)
(action (actype:action actype)))
(if (null action)
(error "(actype:act): Null action for: `%s'" actype)
(let ((hist-elt (hhist:element)))
(run-hooks 'action-act-hook)
(prog1 (if (or (symbolp action) (listp action)
(byte-code-function-p action)
(subrp action)
(and (stringp action) (not (integerp action))
(setq action (key-binding action))))
(apply action args)
(eval action))
(hhist:add hist-elt))))))
(defun actype:action (actype)
"If ACTYPE is a bound function symbol, return it.
Otherwise, return its body. ACTYPE must be a bound function
symbol, symbol name or function body. ACTYPE may be a Hyperbole
actype or Emacs Lisp function."
(let (actname
action)
(cond ((stringp actype)
(setq actname actype
actype (intern actype)))
((and actype (symbolp actype))
(setq actname (symbol-name actype))))
(setq actype (or (symtable:actype-p actname) actype)
action (htype:body actype))
(if (functionp actype)
actype
action)))
(defun actype:action-body (actype)
"Return action body derived from ACTYPE (a symbol or symbol name).
ACTYPE may be a Hyperbole actype or Emacs Lisp function.
If no action body and actype is a bound function symbol, return that."
(let (actname)
(if (stringp actype)
(setq actname actype
actype (intern actype))
(setq actname (symbol-name actype)))
(cond ((htype:body (or (symtable:actype-p actname) actype)))
((fboundp actype) actype))))
(defmacro defact (type params doc &rest default-action)
"Create Hyperbole action TYPE (unquoted symbol) with PARAMS, described by DOC.
The type uses PARAMS to perform DEFAULT-ACTION (list of the rest of the
arguments). A call to this function is syntactically the same as for
`defun', but a doc string is required.
Return symbol created when successful, else nil."
(declare (doc-string 3))
`(progn
(symtable:add ',type symtable:actypes)
(htype:create ,type actypes ,doc ,params ,default-action nil)))
(put 'defact 'lisp-indent-function 'defun)
;; Support edebug-defun for interactive debugging of actypes
(def-edebug-spec defact
(&define name lambda-list
[&optional stringp] ; Match the doc string, if present.
def-body))
(def-edebug-spec lambda-list
(([&rest arg]
[&optional ["&optional" arg &rest arg]]
&optional ["&rest" arg])))
(defalias 'actype:create #'defact)
(defun actype:delete (type)
"Delete an action TYPE (a symbol). Return TYPE's symbol if it existed."
(interactive
(list (intern (hargs:read-match
"Delete from actypes: "
(mapcar 'list (htype:names 'actypes))
nil t nil 'actypes))))
(htype:delete type 'actypes))
(defun actype:doc (but &optional full)
"Return first line of action doc for BUT.
BUT should be a Hyperbole button symbol or an Emacs push button.
With optional FULL, returns full documentation string.
Return nil when no documentation."
(let* ((is-hbut (hbut:is-p but))
(act (if is-hbut
(and (hbut:is-p but) (or (hattr:get but 'action)
(hattr:get but 'actype)))
(let ((attrs (hattr:list but)))
(or (plist-get attrs 'action)
(when (plist-get attrs 'follow-link)
(plist-get attrs 'help-echo))))))
(but-type (if is-hbut
(hattr:get but 'categ)
act))
(sym-p (when act (symbolp act)))
(end-line) (doc))
(cond ((stringp but-type)
(setq doc but-type))
((and (functionp but-type)
(setq doc (htype:doc but-type)))) ;; Is an implicit button, use its doc string.
(sym-p
(setq doc (htype:doc act))))
(when doc
(setq doc (substitute-command-keys doc))
(or full (setq end-line (string-match "[\n]" doc)
doc (substring doc 0 end-line))))
doc))
(defun actype:identity (&rest args)
"Return list of ARGS unchanged or if no ARGS, return t.
Used as the setting of `hrule:action' to inhibit action evaluation."
(or args t))
(defun actype:interact (actype)
"Interactively call default action for ACTYPE.
ACTYPE is a symbol that was previously defined with `defact'.
Return nil only when no action is found or the action has no interactive
calling form."
(let ((action (htype:body (symtable:actype-p actype))))
(and action (action:commandp action) (or (call-interactively action) t))))
(defun actype:params (actype)
"Return list of ACTYPE's parameters, including keywords."
(action:params (actype:action actype)))
(defun actype:param-list (actype)
"Return list of ACTYPE's parameters without keywords."
(action:param-list (actype:action actype)))
(provide 'hact)
;;; hact.el ends here