/* "intern" and friends -- moved here from lread.c and data.c Copyright (C) 1985-1989, 1992-1994 Free Software Foundation, Inc. Copyright (C) 1995, 2000, 2001, 2002, 2010 Ben Wing. This file is part of XEmacs. XEmacs 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. XEmacs 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 XEmacs. If not, see . */ /* Synched up with: FSF 19.30. */ /* This file has been Mule-ized. */ /* NOTE: The value cell of a symbol can contain a simple value or one of various symbol-value-magic objects. Some of these objects can chain into other kinds of objects. Here is a table of possibilities: 1a) simple value 1b) Qunbound 1c) symbol-value-forward, excluding Qunbound 2) symbol-value-buffer-local -> 1a or 1b or 1c 3) symbol-value-lisp-magic -> 1a or 1b or 1c 4) symbol-value-lisp-magic -> symbol-value-buffer-local -> 1a or 1b or 1c 5) symbol-value-varalias 6) symbol-value-lisp-magic -> symbol-value-varalias The "chain" of a symbol-value-buffer-local is its current_value slot. The "chain" of a symbol-value-lisp-magic is its shadowed slot, which applies for handler types without associated handlers. All other fields in all the structures (including the "shadowed" slot in a symbol-value-varalias) can *only* contain a simple value or Qunbound. */ /* #### Ugh, though, this file does awful things with symbol-value-magic objects. This ought to be cleaned up. */ #include #include "lisp.h" #include "bytecode.h" /* for COMPILED_FUNCTION_ANNOTATION_HACK, defined in bytecode.h and used here. */ #include "buffer.h" /* for Vbuffer_defaults */ #include "console-impl.h" #include "elhash.h" Lisp_Object Qad_advice_info, Qad_activate; Lisp_Object Qget_value, Qset_value, Qbound_predicate, Qmake_unbound; Lisp_Object Qlocal_predicate, Qmake_local; Lisp_Object Qboundp, Qglobally_boundp, Qmakunbound; Lisp_Object Qsymbol_value, Qset, Qdefault_boundp, Qdefault_value; Lisp_Object Qset_default, Qsetq_default; Lisp_Object Qmake_variable_buffer_local, Qmake_local_variable; Lisp_Object Qkill_local_variable, Qkill_console_local_variable; Lisp_Object Qsymbol_value_in_buffer, Qsymbol_value_in_console; Lisp_Object Qlocal_variable_p; Lisp_Object Qconst_integer, Qconst_boolean, Qconst_object; Lisp_Object Qconst_specifier; Lisp_Object Qdefault_buffer, Qcurrent_buffer, Qconst_current_buffer; Lisp_Object Qdefault_console, Qselected_console, Qconst_selected_console; static Lisp_Object maybe_call_magic_handler (Lisp_Object sym, Lisp_Object funsym, int nargs, ...); static Lisp_Object fetch_value_maybe_past_magic (Lisp_Object sym, Lisp_Object follow_past_lisp_magic); static Lisp_Object *value_slot_past_magic (Lisp_Object sym); static Lisp_Object follow_varalias_pointers (Lisp_Object symbol, Lisp_Object follow_past_lisp_magic); static Lisp_Object map_varalias_chain (Lisp_Object symbol, Lisp_Object follow_past_lisp_magic, Lisp_Object (*fn) (Lisp_Object arg)); static Lisp_Object mark_symbol (Lisp_Object obj) { Lisp_Symbol *sym = XSYMBOL (obj); mark_object (sym->value); mark_object (sym->function); mark_object (sym->name); if (!symbol_next (sym)) return sym->plist; else { mark_object (sym->plist); /* Mark the rest of the symbols in the obarray hash-chain */ sym = symbol_next (sym); return wrap_symbol (sym); } } static const struct memory_description symbol_description[] = { { XD_LISP_OBJECT, offsetof (Lisp_Symbol, next) }, { XD_LISP_OBJECT, offsetof (Lisp_Symbol, name) }, { XD_LISP_OBJECT, offsetof (Lisp_Symbol, value) }, { XD_LISP_OBJECT, offsetof (Lisp_Symbol, function) }, { XD_LISP_OBJECT, offsetof (Lisp_Symbol, plist) }, { XD_END } }; /* Symbol plists are directly accessible, so we need to protect against invalid property list structure */ static Lisp_Object symbol_getprop (Lisp_Object symbol, Lisp_Object property) { return external_plist_get (&XSYMBOL (symbol)->plist, property, 0, ERROR_ME); } static int symbol_putprop (Lisp_Object symbol, Lisp_Object property, Lisp_Object value) { external_plist_put (&XSYMBOL (symbol)->plist, property, value, 0, ERROR_ME); return 1; } static int symbol_remprop (Lisp_Object symbol, Lisp_Object property) { return external_remprop (&XSYMBOL (symbol)->plist, property, 0, ERROR_ME); } static void symbol_print_preprocess (Lisp_Object UNUSED (symbol), Lisp_Object UNUSED (print_number_table), Elemcount * UNUSED (seen_object_count)) { /* This method is empty; symbols are handled specially in print_preprocess, because print_preprocess_inchash_eq() is conditional for them, rather than a given. */ } DEFINE_DUMPABLE_FROB_BLOCK_LISP_OBJECT ("symbol", symbol, mark_symbol, print_symbol, 0, 0, 0, symbol_description, Lisp_Symbol); /**********************************************************************/ /* Intern */ /**********************************************************************/ /* #### using a vector here is way bogus. Use a hash table instead. */ Lisp_Object Vobarray; static Lisp_Object initial_obarray; /* oblookup stores the bucket number here, for the sake of Funintern. */ static int oblookup_last_bucket_number; static Lisp_Object check_obarray (Lisp_Object obarray) { while (!VECTORP (obarray) || XVECTOR_LENGTH (obarray) == 0) { /* If Vobarray is now invalid, force it to be valid. */ if (EQ (Vobarray, obarray)) Vobarray = initial_obarray; obarray = wrong_type_argument (Qvectorp, obarray); } return obarray; } Lisp_Object intern_istring (const Ibyte *str) { Bytecount len = qxestrlen (str); Lisp_Object obarray = Vobarray; if (!VECTORP (obarray) || XVECTOR_LENGTH (obarray) == 0) obarray = check_obarray (obarray); { Lisp_Object tem = oblookup (obarray, str, len); if (SYMBOLP (tem)) return tem; } return Fintern (make_string (str, len), obarray); } Lisp_Object intern (const CIbyte *str) { return intern_istring ((Ibyte *) str); } Lisp_Object intern_massaging_name (const CIbyte *str) { Bytecount len = strlen (str); CIbyte *tmp = alloca_extbytes (len + 1); Bytecount i; strcpy (tmp, str); for (i = 0; i < len; i++) { if (tmp[i] == '_') { tmp[i] = '-'; } else if (tmp[i] == 'X') { tmp[i] = '*'; } } return intern_istring ((Ibyte *) tmp); } DEFUN ("intern", Fintern, 1, 2, 0, /* Return the canonical symbol whose name is STRING. If there is none, one is created by this function and returned. Optional second argument OBARRAY specifies the obarray to use; it defaults to the value of the variable `obarray'. */ (string, obarray)) { Lisp_Object object, *ptr; Lisp_Object symbol; Bytecount len; if (NILP (obarray)) obarray = Vobarray; obarray = check_obarray (obarray); CHECK_STRING (string); len = XSTRING_LENGTH (string); object = oblookup (obarray, XSTRING_DATA (string), len); if (!FIXNUMP (object)) /* Found it */ return object; ptr = &XVECTOR_DATA (obarray)[XFIXNUM (object)]; object = Fmake_symbol (string); symbol = object; if (SYMBOLP (*ptr)) XSYMBOL_NEXT (symbol) = XSYMBOL (*ptr); else XSYMBOL_NEXT (symbol) = 0; *ptr = object; XSYMBOL (object)->u.v.package_count = 1; XSYMBOL (object)->u.v.first_package_id = (EQ (obarray, Vobarray)) ? 1 : 2; if (string_byte (XSYMBOL_NAME (symbol), 0) == ':' && EQ (obarray, Vobarray)) { /* The LISP way is to put keywords in their own package, but we don't have packages, so we do something simpler. Someday, maybe we'll have packages and then this will be reworked. --Stig. */ XSYMBOL_VALUE (symbol) = object; } return object; } DEFUN ("intern-soft", Fintern_soft, 1, 3, 0, /* Return the canonical symbol named NAME, or nil if none exists. NAME may be a string or a symbol. If it is a symbol, that exact symbol is searched for. Optional second argument OBARRAY specifies the obarray to use; it defaults to the value of the variable `obarray'. Optional third argument DEFAULT says what Lisp object to return if there is no canonical symbol named NAME, and defaults to nil. */ (name, obarray, default_)) { Lisp_Object tem; Lisp_Object string; if (NILP (obarray)) obarray = Vobarray; obarray = check_obarray (obarray); if (!SYMBOLP (name)) { CHECK_STRING (name); string = name; } else string = symbol_name (XSYMBOL (name)); tem = oblookup (obarray, XSTRING_DATA (string), XSTRING_LENGTH (string)); if (FIXNUMP (tem) || (SYMBOLP (name) && !EQ (name, tem))) return default_; else return tem; } DEFUN ("unintern", Funintern, 1, 2, 0, /* Delete the symbol named NAME, if any, from OBARRAY. The value is t if a symbol was found and deleted, nil otherwise. NAME may be a string or a symbol. If it is a symbol, that symbol is deleted, if it belongs to OBARRAY--no other symbol is deleted. OBARRAY defaults to the value of the variable `obarray'. */ (name, obarray)) { Lisp_Object tem; Lisp_Object string; int hash; if (NILP (obarray)) obarray = Vobarray; obarray = check_obarray (obarray); if (SYMBOLP (name)) string = symbol_name (XSYMBOL (name)); else { CHECK_STRING (name); string = name; } tem = oblookup (obarray, XSTRING_DATA (string), XSTRING_LENGTH (string)); if (FIXNUMP (tem)) return Qnil; /* If arg was a symbol, don't delete anything but that symbol itself. */ if (SYMBOLP (name) && !EQ (name, tem)) return Qnil; hash = oblookup_last_bucket_number; if (EQ (XVECTOR_DATA (obarray)[hash], tem)) { unsigned int package_count = XSYMBOL (tem)->u.v.package_count; if (XSYMBOL (tem)->next) XVECTOR_DATA (obarray)[hash] = wrap_symbol (XSYMBOL (tem)->next); else XVECTOR_DATA (obarray)[hash] = Qzero; if (package_count > 0) { if (1 == package_count) { XSYMBOL (tem)->u.v.first_package_id = 0; } XSYMBOL (tem)->u.v.package_count = package_count - 1; } } else { Lisp_Object tail, following; for (tail = XVECTOR_DATA (obarray)[hash]; XSYMBOL (tail)->next; tail = following) { following = wrap_symbol (XSYMBOL (tail)->next); if (EQ (following, tem)) { unsigned int package_count = XSYMBOL (tem)->u.v.package_count; XSYMBOL (tail)->next = XSYMBOL (following)->next; if (package_count > 0) { if (1 == package_count) { XSYMBOL (tem)->u.v.first_package_id = 0; } XSYMBOL (tem)->u.v.package_count = package_count - 1; } break; } } } return Qt; } /* Return the symbol in OBARRAY whose names matches the string of SIZE characters at PTR. If there is no such symbol in OBARRAY, return the index into OBARRAY that the string hashes to. Also store the bucket number in oblookup_last_bucket_number. */ Lisp_Object oblookup (Lisp_Object obarray, const Ibyte *ptr, Bytecount size) { unsigned int hash, obsize; Lisp_Symbol *tail; Lisp_Object bucket; if (!VECTORP (obarray) || (obsize = XVECTOR_LENGTH (obarray)) == 0) { obarray = check_obarray (obarray); obsize = XVECTOR_LENGTH (obarray); } hash = hash_string (ptr, size) % obsize; oblookup_last_bucket_number = hash; bucket = XVECTOR_DATA (obarray)[hash]; if (ZEROP (bucket)) ; else if (!SYMBOLP (bucket)) signal_error (Qinvalid_state, "Bad data in guts of obarray", Qunbound); /* Like CADR error message */ else for (tail = XSYMBOL (bucket); ;) { if (XSTRING_LENGTH (tail->name) == size && !memcmp (XSTRING_DATA (tail->name), ptr, size)) { return wrap_symbol (tail); } tail = symbol_next (tail); if (!tail) break; } return make_fixnum (hash); } /* An excellent string hashing function. Adapted from glib's g_str_hash(). Investigation by Karl Nelson . Do a web search for "g_str_hash X31_HASH" if you want to know more. */ unsigned int hash_string (const Ibyte *ptr, Bytecount len) { unsigned int hash; for (hash = 0; len; len--, ptr++) /* (31 * hash) will probably be optimized to ((hash << 5) - hash). */ hash = 31 * hash + *ptr; return hash; } /* Map FN over OBARRAY. The mapping is stopped when FN returns a non-zero value. */ void map_obarray (Lisp_Object obarray, int (*fn) (Lisp_Object, Lisp_Object, void *), void *arg) { REGISTER int i; CHECK_VECTOR (obarray); for (i = XVECTOR_LENGTH (obarray) - 1; i >= 0; i--) { Lisp_Object tail = XVECTOR_DATA (obarray)[i]; if (SYMBOLP (tail)) while (1) { Lisp_Symbol *next; if ((*fn) (XSYMBOL_NAME (tail), tail, arg)) return; next = symbol_next (XSYMBOL (tail)); if (!next) break; tail = wrap_symbol (next); } } } static int mapatoms_1 (Lisp_Object UNUSED (key), Lisp_Object sym, void *arg) { call1 (*(Lisp_Object *)arg, sym); return 0; } DEFUN ("mapatoms", Fmapatoms, 1, 2, 0, /* Call FUNCTION on every symbol in OBARRAY. OBARRAY defaults to the value of `obarray'. */ (function, obarray)) { struct gcpro gcpro1; if (NILP (obarray)) obarray = Vobarray; obarray = check_obarray (obarray); GCPRO1 (obarray); map_obarray (obarray, mapatoms_1, &function); UNGCPRO; return Qnil; } /**********************************************************************/ /* Apropos */ /**********************************************************************/ struct appropos_mapper_closure { Lisp_Object regexp; Lisp_Object predicate; Lisp_Object accumulation; }; static int apropos_mapper (Lisp_Object UNUSED (key), Lisp_Object symbol, void *arg) { struct appropos_mapper_closure *closure = (struct appropos_mapper_closure *) arg; Bytecount match = fast_lisp_string_match (closure->regexp, Fsymbol_name (symbol)); if (match >= 0 && (NILP (closure->predicate) || !NILP (call1 (closure->predicate, symbol)))) closure->accumulation = Fcons (symbol, closure->accumulation); return 0; } DEFUN ("apropos-internal", Fapropos_internal, 1, 2, 0, /* Return a list of all symbols whose names contain match for REGEXP. If optional 2nd arg PREDICATE is non-nil, only symbols for which \(funcall PREDICATE SYMBOL) returns non-nil are returned. */ (regexp, predicate)) { struct appropos_mapper_closure closure; struct gcpro gcpro1; CHECK_STRING (regexp); closure.regexp = regexp; closure.predicate = predicate; closure.accumulation = Qnil; GCPRO1 (closure.accumulation); map_obarray (Vobarray, apropos_mapper, &closure); closure.accumulation = list_sort (closure.accumulation, check_string_lessp_nokey, Qnil, Qnil); UNGCPRO; return closure.accumulation; } /* Extract and set components of symbols */ static void set_up_buffer_local_cache (Lisp_Object sym, struct symbol_value_buffer_local *bfwd, struct buffer *buf, Lisp_Object new_alist_el, int set_it_p); DEFUN ("boundp", Fboundp, 1, 1, 0, /* Return t if SYMBOL's value is not void. */ (symbol)) { CHECK_SYMBOL (symbol); return UNBOUNDP (find_symbol_value (symbol)) ? Qnil : Qt; } DEFUN ("globally-boundp", Fglobally_boundp, 1, 1, 0, /* Return t if SYMBOL has a global (non-bound) value. This is for the byte-compiler; you really shouldn't be using this. */ (symbol)) { CHECK_SYMBOL (symbol); return UNBOUNDP (top_level_value (symbol)) ? Qnil : Qt; } DEFUN ("fboundp", Ffboundp, 1, 1, 0, /* Return t if SYMBOL's function definition is not void. */ (symbol)) { CHECK_SYMBOL (symbol); return UNBOUNDP (XSYMBOL (symbol)->function) ? Qnil : Qt; } /* Return non-zero if SYM's value or function (the current contents of which should be passed in as VAL) is constant, i.e. unsettable. */ static int symbol_is_constant (Lisp_Object sym, Lisp_Object val) { /* #### - I wonder if it would be better to just have a new magic value type and make nil, t, and all keywords have that same magic constant_symbol value. This test is awfully specific about what is constant and what isn't. --Stig */ if (EQ (sym, Qnil) || EQ (sym, Qt)) return 1; if (SYMBOL_VALUE_MAGIC_P (val)) switch (XSYMBOL_VALUE_MAGIC_TYPE (val)) { case SYMVAL_CONST_OBJECT_FORWARD: case SYMVAL_CONST_SPECIFIER_FORWARD: case SYMVAL_CONST_FIXNUM_FORWARD: case SYMVAL_CONST_BOOLEAN_FORWARD: case SYMVAL_CONST_CURRENT_BUFFER_FORWARD: case SYMVAL_CONST_SELECTED_CONSOLE_FORWARD: return 1; default: break; /* Warning suppression */ } /* We don't return true for keywords here because they are handled specially by reject_constant_symbols(). */ return 0; } /* We are setting SYM's value slot (or function slot, if FUNCTION_P is non-zero) to NEWVAL. Make sure this is allowed. FOLLOW_PAST_LISP_MAGIC specifies whether we delve past symbol-value-lisp-magic objects. */ void reject_constant_symbols (Lisp_Object sym, Lisp_Object newval, int function_p, Lisp_Object follow_past_lisp_magic) { Lisp_Object val = (function_p ? XSYMBOL (sym)->function : fetch_value_maybe_past_magic (sym, follow_past_lisp_magic)); if (SYMBOL_VALUE_MAGIC_P (val) && XSYMBOL_VALUE_MAGIC_TYPE (val) == SYMVAL_CONST_SPECIFIER_FORWARD) invalid_change ("Use `set-specifier' to change a specifier's value", sym); if ( #ifdef HAVE_SHLIB !(unloading_module && UNBOUNDP(newval)) && #endif (symbol_is_constant (sym, val) #ifdef NEED_TO_HANDLE_21_4_CODE || (SYMBOL_IS_KEYWORD (sym) && !EQ (newval, sym)) #endif )) signal_error_1 (Qsetting_constant, UNBOUNDP (newval) ? list1 (sym) : list2 (sym, newval)); } /* Verify that it's ok to make SYM buffer-local. This rejects constants and default-buffer-local variables. FOLLOW_PAST_LISP_MAGIC specifies whether we delve into symbol-value-lisp-magic objects. (Should be a symbol indicating what action is being taken; that way, we don't delve if there's a handler for that action, but do otherwise.) */ static void verify_ok_for_buffer_local (Lisp_Object sym, Lisp_Object follow_past_lisp_magic) { Lisp_Object val = fetch_value_maybe_past_magic (sym, follow_past_lisp_magic); if (symbol_is_constant (sym, val)) goto not_ok; if (SYMBOL_VALUE_MAGIC_P (val)) switch (XSYMBOL_VALUE_MAGIC_TYPE (val)) { case SYMVAL_DEFAULT_BUFFER_FORWARD: case SYMVAL_DEFAULT_CONSOLE_FORWARD: /* #### It's theoretically possible for it to be reasonable to have both console-local and buffer-local variables, but I don't want to consider that right now. */ case SYMVAL_SELECTED_CONSOLE_FORWARD: goto not_ok; default: break; /* Warning suppression */ } return; not_ok: invalid_change ("Symbol may not be buffer-local", sym); } DEFUN ("makunbound", Fmakunbound, 1, 1, 0, /* Make SYMBOL's value be void. */ (symbol)) { Fset (symbol, Qunbound); return symbol; } DEFUN ("fmakunbound", Ffmakunbound, 1, 1, 0, /* Make SYMBOL's function definition be void. */ (symbol)) { CHECK_SYMBOL (symbol); reject_constant_symbols (symbol, Qunbound, 1, Qt); XSYMBOL (symbol)->function = Qunbound; return symbol; } DEFUN ("symbol-function", Fsymbol_function, 1, 1, 0, /* Return SYMBOL's function definition. Error if that is void. */ (symbol)) { CHECK_SYMBOL (symbol); if (UNBOUNDP (XSYMBOL (symbol)->function)) signal_void_function_error (symbol); return XSYMBOL (symbol)->function; } DEFUN ("symbol-plist", Fsymbol_plist, 1, 1, 0, /* Return SYMBOL's property list. */ (symbol)) { CHECK_SYMBOL (symbol); return XSYMBOL (symbol)->plist; } DEFUN ("symbol-name", Fsymbol_name, 1, 1, 0, /* Return SYMBOL's name, a string. */ (symbol)) { CHECK_SYMBOL (symbol); return XSYMBOL (symbol)->name; } DEFUN ("fset", Ffset, 2, 2, 0, /* Set SYMBOL's function definition to NEWDEF, and return NEWDEF. */ (symbol, newdef)) { /* This function can GC */ CHECK_SYMBOL (symbol); reject_constant_symbols (symbol, newdef, 1, Qt); if (!NILP (Vautoload_queue) && !UNBOUNDP (XSYMBOL (symbol)->function)) Vautoload_queue = Fcons (Fcons (symbol, XSYMBOL (symbol)->function), Vautoload_queue); XSYMBOL (symbol)->function = newdef; /* Handle automatic advice activation */ if (CONSP (XSYMBOL (symbol)->plist) && !NILP (Fget (symbol, Qad_advice_info, Qnil))) { call2 (Qad_activate, symbol, Qnil); newdef = XSYMBOL (symbol)->function; } return newdef; } /* FSFmacs */ DEFUN ("define-function", Fdefine_function, 2, 2, 0, /* Set SYMBOL's function definition to NEWDEF, and return NEWDEF. Associates the function with the current load file, if any. If NEWDEF is a compiled-function object, stores the function name in the `annotated' slot of the compiled-function (retrievable using `compiled-function-annotation'). */ (symbol, newdef)) { /* This function can GC */ Ffset (symbol, newdef); LOADHIST_ATTACH (Fcons (Qdefun, symbol)); #ifdef COMPILED_FUNCTION_ANNOTATION_HACK if (COMPILED_FUNCTIONP (newdef)) XCOMPILED_FUNCTION (newdef)->annotated = symbol; #endif /* COMPILED_FUNCTION_ANNOTATION_HACK */ return newdef; } DEFUN ("subr-name", Fsubr_name, 1, 1, 0, /* Return name of function SUBR. SUBR must be a built-in function. */ (subr)) { const Ascbyte *name; CHECK_SUBR (subr); name = XSUBR (subr)->name; return make_string ((const Ibyte *)name, strlen (name)); } DEFUN ("special-operator-p", Fspecial_operator_p, 1, 1, 0, /* Return whether SUBR is a special operator. A special operator is a built-in function (a subr, that is a function implemented in C, not Lisp) which does not necessarily evaluate all its arguments. Much of the basic XEmacs Lisp syntax is implemented by means of special operators; examples are `let', `condition-case', `setq', and so on. If you intend to write a Lisp function that does not necessarily evaluate all its arguments, the portable (across emacs variants, and across Lisp implementations) way to go about it is to write a macro instead. See `defmacro' and `backquote'. */ (subr)) { subr = indirect_function (subr, 0); return (SUBRP (subr) && XSUBR (subr)->max_args == UNEVALLED) ? Qt : Qnil; } DEFUN ("setplist", Fsetplist, 2, 2, 0, /* Set SYMBOL's property list to NEWPLIST, and return NEWPLIST. */ (symbol, newplist)) { CHECK_SYMBOL (symbol); XSYMBOL (symbol)->plist = newplist; return newplist; } /**********************************************************************/ /* symbol-value */ /**********************************************************************/ /* NOTE NOTE NOTE: --------------- There are various different uses of "magic" with regard to symbols, and they need to be distinguished: 1. `symbol-value-magic' class of objects (struct symbol_value_magic): A set of Lisp object types used as the value of a variable with any behavior other than just a plain repository of a value. This includes buffer-local variables, console-local variables, read-only variables, variable aliases, variables that are linked to a C variable, etc. The more specific types are: -- `symbol-value-forward': Variables that forward to a C variable. NOTE:This includes built-in buffer-local and console-local variables, since they forward to an element in a buffer or console structure. -- `symbol-value-buffer-local': Variables on which `make-local-variable' or `make-variable-buffer-local' have been called. -- `symbol-value-lisp-magic': See below. -- `symbol-value-varalias': Variable aliases. 2. `symbol-value-lisp-magic': Variables on which `dontusethis-set-symbol-value-handler' have been called. These variables are extra-magic in that operations that would normally change their value instead get forwarded out to Lisp handlers, which can do anything they want. (NOTE: Handlers for getting a variable's value aren't implemented yet.) 3. "magicfun" handlers on C-forwarding variables, declared with any of the following: -- DEFVAR_LISP_MAGIC -- DEFVAR_INT_MAGIC -- DEFVAR_BOOL_MAGIC, -- DEFVAR_BUFFER_LOCAL_MAGIC -- DEFVAR_BUFFER_DEFAULTS_MAGIC -- DEFVAR_CONSOLE_LOCAL_MAGIC -- DEFVAR_CONSOLE_DEFAULTS_MAGIC Here, the "magic function" is a handler that is notified whenever the value of a variable is changed, so that some other updating can take place (e.g. setting redisplay-related dirty bits, updating a cache, etc.). Note that DEFVAR_LISP_MAGIC does *NOT* have anything to do with `symbol-value-lisp-magic'. The former refers to variables that can hold an arbitrary Lisp object and forward to a C variable declared `Lisp_Object foo', and have a "magicfun" as just described; the latter are variables that have Lisp-level handlers that function in *PLACE* of normal variable-setting mechanisms, and are established with `dontusethis-set-symbol-value-handler', as described above. */ /* If the contents of the value cell of a symbol is one of the following three types of objects, then the symbol is "magic" in that setting and retrieving its value doesn't just set or retrieve the raw contents of the value cell. None of these objects can escape to the user level, so there is no loss of generality. If a symbol is "unbound", then the contents of its value cell is Qunbound. Despite appearances, this is *not* a symbol, but is a symbol-value-forward object. This is so that printing it results in "INTERNAL OBJECT (XEmacs bug?)", in case it leaks to Lisp, somehow. Logically all of the following objects are "symbol-value-magic" objects, and there are some games played w.r.t. this (#### this should be cleaned up). SYMBOL_VALUE_MAGIC_P is true for all of the object types. XSYMBOL_VALUE_MAGIC_TYPE returns the type of symbol-value-magic object. There are more than three types returned by this macro: in particular, symbol-value-forward has eight subtypes, and symbol-value-buffer-local has two. See symeval.h. 1. symbol-value-forward symbol-value-forward is used for variables whose actual contents are stored in a C variable of some sort, and for Qunbound. The lcheader.next field (which is only used to chain together free lcrecords) holds a pointer to the actual C variable. Included in this type are "buffer-local" variables that are actually stored in the buffer object itself; in this case, the "pointer" is an offset into the struct buffer structure. The subtypes are as follows: SYMVAL_OBJECT_FORWARD: (declare with DEFVAR_LISP) The value of this variable is stored in a C variable of type "Lisp_Object". Setting this variable sets the C variable. Accessing this variable retrieves a value from the C variable. These variables can be buffer-local -- in this case, the raw symbol-value field gets converted into a symbol-value-buffer-local, whose "current_value" slot contains the symbol-value-forward. (See below.) SYMVAL_FIXNUM_FORWARD: (declare with DEFVAR_INT) Similar to SYMVAL_OBJECT_FORWARD except that the C variable is of type "Fixnum", a typedef for "EMACS_INT", and the corresponding lisp variable is always the corresponding integer. SYMVAL_BOOLEAN_FORWARD: (declare with DEFVAR_BOOL) Similar to SYMVAL_OBJECT_FORWARD except that the C variable is of type "int" and is a boolean. SYMVAL_CONST_OBJECT_FORWARD: SYMVAL_CONST_FIXNUM_FORWARD: SYMVAL_CONST_BOOLEAN_FORWARD: (declare with DEFVAR_CONST_LISP, DEFVAR_CONST_INT, or DEFVAR_CONST_BOOL) Similar to SYMVAL_OBJECT_FORWARD, SYMVAL_FIXNUM_FORWARD, or SYMVAL_BOOLEAN_FORWARD, respectively, except that the value cannot be changed. SYMVAL_CONST_SPECIFIER_FORWARD: (declare with DEFVAR_SPECIFIER) Exactly like SYMVAL_CONST_OBJECT_FORWARD except that the error message you get when attempting to set the value says to use `set-specifier' instead. SYMVAL_CURRENT_BUFFER_FORWARD: (declare with DEFVAR_BUFFER_LOCAL) This is used for built-in buffer-local variables -- i.e. Lisp variables whose value is stored in the "struct buffer". Variables of this sort always forward into C "Lisp_Object" fields (although there's no reason in principle that other types for ints and booleans couldn't be added). Note that some of these variables are automatically local in each buffer, while some are only local when they become set (similar to `make-variable-buffer-local'). In these latter cases, of course, the default value shows through in all buffers in which the variable doesn't have a local value. This is implemented by making sure the "struct buffer" field always contains the correct value (whether it's local or a default) and maintaining a mask in the "struct buffer" indicating which fields are local. When `set-default' is called on a variable that's not always local to all buffers, it loops through each buffer and sets the corresponding field in each buffer without a local value for the field, according to the mask. Calling `make-local-variable' on a variable of this sort only has the effect of maybe changing the current buffer's mask. Calling `make-variable-buffer-local' on a variable of this sort has no effect at all. SYMVAL_CONST_CURRENT_BUFFER_FORWARD: (declare with DEFVAR_CONST_BUFFER_LOCAL) Same as SYMVAL_CURRENT_BUFFER_FORWARD except that the value cannot be set. SYMVAL_DEFAULT_BUFFER_FORWARD: (declare with DEFVAR_BUFFER_DEFAULTS) This is used for the Lisp variables that contain the default values of built-in buffer-local variables. Setting or referencing one of these variables forwards into a slot in the special struct buffer Vbuffer_defaults. SYMVAL_UNBOUND_MARKER: This is used for only one object, Qunbound. SYMVAL_SELECTED_CONSOLE_FORWARD: (declare with DEFVAR_CONSOLE_LOCAL) This is used for built-in console-local variables -- i.e. Lisp variables whose value is stored in the "struct console". These work just like built-in buffer-local variables. However, calling `make-local-variable' or `make-variable-buffer-local' on one of these variables is currently disallowed because that would entail having both console-local and buffer-local variables, which is trickier to implement. SYMVAL_CONST_SELECTED_CONSOLE_FORWARD: (declare with DEFVAR_CONST_CONSOLE_LOCAL) Same as SYMVAL_SELECTED_CONSOLE_FORWARD except that the value cannot be set. SYMVAL_DEFAULT_CONSOLE_FORWARD: (declare with DEFVAR_CONSOLE_DEFAULTS) This is used for the Lisp variables that contain the default values of built-in console-local variables. Setting or referencing one of these variables forwards into a slot in the special struct console Vconsole_defaults. 2. symbol-value-buffer-local symbol-value-buffer-local is used for variables that have had `make-local-variable' or `make-variable-buffer-local' applied to them. This object contains an alist mapping buffers to values. In addition, the object contains a "current value", which is the value in some buffer. Whenever you access the variable with `symbol-value' or set it with `set' or `setq', things are switched around so that the "current value" refers to the current buffer, if it wasn't already. This way, repeated references to a variable in the same buffer are almost as efficient as if the variable weren't buffer local. Note that the alist may not be up-to-date w.r.t. the buffer whose value is current, as the "current value" cache is normally only flushed into the alist when the buffer it refers to changes. Note also that it is possible for `make-local-variable' or `make-variable-buffer-local' to be called on a variable that forwards into a C variable (i.e. a variable whose value cell is a symbol-value-forward). In this case, the value cell becomes a symbol-value-buffer-local (as always), and the symbol-value-forward moves into the "current value" cell in this object. Also, in this case the "current value" *always* refers to the current buffer, so that the values of the C variable always is the correct value for the current buffer. set_buffer_internal() automatically updates the current-value cells of all buffer-local variables that forward into C variables. (There is a list of all buffer-local variables that is maintained for this and other purposes.) Note that only certain types of `symbol-value-forward' objects can find their way into the "current value" cell of a `symbol-value-buffer-local' object: SYMVAL_OBJECT_FORWARD, SYMVAL_FIXNUM_FORWARD, SYMVAL_BOOLEAN_FORWARD, and SYMVAL_UNBOUND_MARKER. The SYMVAL_CONST_*_FORWARD cannot be buffer-local because they are unsettable; SYMVAL_DEFAULT_*_FORWARD cannot be buffer-local because that makes no sense; making SYMVAL_CURRENT_BUFFER_FORWARD buffer-local does not have much of an effect (it's already buffer-local); and SYMVAL_SELECTED_CONSOLE_FORWARD cannot be buffer-local because that's not currently implemented. 3. symbol-value-varalias A symbol-value-varalias object is used for variables that are aliases for other variables. This object contains the symbol that this variable is aliased to. symbol-value-varalias objects cannot occur anywhere within a symbol-value-buffer-local object, and most of the low-level functions below do not accept them; you need to call follow_varalias_pointers to get the actual symbol to operate on. */ static const struct memory_description symbol_value_buffer_local_description[] = { { XD_LISP_OBJECT, offsetof (struct symbol_value_buffer_local, default_value) }, { XD_LISP_OBJECT, offsetof (struct symbol_value_buffer_local, current_value) }, { XD_LISP_OBJECT, offsetof (struct symbol_value_buffer_local, current_buffer) }, { XD_LISP_OBJECT, offsetof (struct symbol_value_buffer_local, current_alist_element) }, { XD_END } }; static Lisp_Object mark_symbol_value_buffer_local (Lisp_Object obj) { struct symbol_value_buffer_local *bfwd; #ifdef ERROR_CHECK_TYPES assert (XSYMBOL_VALUE_MAGIC_TYPE (obj) == SYMVAL_BUFFER_LOCAL || XSYMBOL_VALUE_MAGIC_TYPE (obj) == SYMVAL_SOME_BUFFER_LOCAL); #endif bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (obj); mark_object (bfwd->default_value); mark_object (bfwd->current_value); mark_object (bfwd->current_buffer); return bfwd->current_alist_element; } static const struct memory_description symbol_value_lisp_magic_description[] = { { XD_LISP_OBJECT_ARRAY, offsetof (struct symbol_value_lisp_magic, handler), MAGIC_HANDLER_MAX }, { XD_LISP_OBJECT_ARRAY, offsetof (struct symbol_value_lisp_magic, harg), MAGIC_HANDLER_MAX }, { XD_LISP_OBJECT, offsetof (struct symbol_value_lisp_magic, shadowed) }, { XD_END } }; static Lisp_Object mark_symbol_value_lisp_magic (Lisp_Object obj) { struct symbol_value_lisp_magic *bfwd; int i; assert (XSYMBOL_VALUE_MAGIC_TYPE (obj) == SYMVAL_LISP_MAGIC); bfwd = XSYMBOL_VALUE_LISP_MAGIC (obj); for (i = 0; i < MAGIC_HANDLER_MAX; i++) { mark_object (bfwd->handler[i]); mark_object (bfwd->harg[i]); } return bfwd->shadowed; } static const struct memory_description symbol_value_varalias_description[] = { { XD_LISP_OBJECT, offsetof (struct symbol_value_varalias, aliasee) }, { XD_LISP_OBJECT, offsetof (struct symbol_value_varalias, shadowed) }, { XD_END } }; static Lisp_Object mark_symbol_value_varalias (Lisp_Object obj) { struct symbol_value_varalias *bfwd; assert (XSYMBOL_VALUE_MAGIC_TYPE (obj) == SYMVAL_VARALIAS); bfwd = XSYMBOL_VALUE_VARALIAS (obj); mark_object (bfwd->shadowed); return bfwd->aliasee; } /* Should never, ever be called. (except by an external debugger) */ void print_symbol_value_magic (Lisp_Object obj, Lisp_Object printcharfun, int UNUSED (escapeflag)) { write_fmt_string (printcharfun, "#", XRECORD_LHEADER_IMPLEMENTATION (obj)->name, XSYMBOL_VALUE_MAGIC_TYPE (obj), LISP_OBJECT_UID (obj)); } static const struct memory_description symbol_value_forward_description[] = { { XD_END } }; DEFINE_DUMPABLE_LISP_OBJECT ("symbol-value-forward", symbol_value_forward, 0, print_symbol_value_magic, 0, 0, 0, symbol_value_forward_description, struct symbol_value_forward); DEFINE_DUMPABLE_LISP_OBJECT ("symbol-value-buffer-local", symbol_value_buffer_local, mark_symbol_value_buffer_local, print_symbol_value_magic, 0, 0, 0, symbol_value_buffer_local_description, struct symbol_value_buffer_local); DEFINE_DUMPABLE_LISP_OBJECT ("symbol-value-lisp-magic", symbol_value_lisp_magic, mark_symbol_value_lisp_magic, print_symbol_value_magic, 0, 0, 0, symbol_value_lisp_magic_description, struct symbol_value_lisp_magic); DEFINE_DUMPABLE_LISP_OBJECT ("symbol-value-varalias", symbol_value_varalias, mark_symbol_value_varalias, print_symbol_value_magic, 0, 0, 0, symbol_value_varalias_description, struct symbol_value_varalias); /* Getting and setting values of symbols */ /* Given the raw contents of a symbol value cell, return the Lisp value of the symbol. However, VALCONTENTS cannot be a symbol-value-buffer-local, symbol-value-lisp-magic, or symbol-value-varalias. BUFFER specifies a buffer, and is used for built-in buffer-local variables, which are of type SYMVAL_CURRENT_BUFFER_FORWARD. Note that such variables are never encapsulated in a symbol-value-buffer-local structure. CONSOLE specifies a console, and is used for built-in console-local variables, which are of type SYMVAL_SELECTED_CONSOLE_FORWARD. Note that such variables are (currently) never encapsulated in a symbol-value-buffer-local structure. */ static Lisp_Object do_symval_forwarding (Lisp_Object valcontents, struct buffer *buffer, struct console *console) { const struct symbol_value_forward *fwd; if (!SYMBOL_VALUE_MAGIC_P (valcontents)) return valcontents; fwd = XSYMBOL_VALUE_FORWARD (valcontents); switch (fwd->magic.type) { case SYMVAL_FIXNUM_FORWARD: case SYMVAL_CONST_FIXNUM_FORWARD: return make_fixnum (*((Fixnum *)symbol_value_forward_forward (fwd))); case SYMVAL_BOOLEAN_FORWARD: case SYMVAL_CONST_BOOLEAN_FORWARD: return *((int *)symbol_value_forward_forward (fwd)) ? Qt : Qnil; case SYMVAL_OBJECT_FORWARD: case SYMVAL_CONST_OBJECT_FORWARD: case SYMVAL_CONST_SPECIFIER_FORWARD: return *((Lisp_Object *)symbol_value_forward_forward (fwd)); case SYMVAL_DEFAULT_BUFFER_FORWARD: return (*((Lisp_Object *)((Rawbyte *) XBUFFER (Vbuffer_defaults) + ((Rawbyte *)symbol_value_forward_forward (fwd) - (Rawbyte *)&buffer_local_flags)))); case SYMVAL_CURRENT_BUFFER_FORWARD: case SYMVAL_CONST_CURRENT_BUFFER_FORWARD: assert (buffer); return (*((Lisp_Object *)((Rawbyte *)buffer + ((Rawbyte *)symbol_value_forward_forward (fwd) - (Rawbyte *)&buffer_local_flags)))); case SYMVAL_DEFAULT_CONSOLE_FORWARD: return (*((Lisp_Object *)((Rawbyte *) XCONSOLE (Vconsole_defaults) + ((Rawbyte *)symbol_value_forward_forward (fwd) - (Rawbyte *)&console_local_flags)))); case SYMVAL_SELECTED_CONSOLE_FORWARD: case SYMVAL_CONST_SELECTED_CONSOLE_FORWARD: assert (console); return (*((Lisp_Object *)((Rawbyte *)console + ((Rawbyte *)symbol_value_forward_forward (fwd) - (Rawbyte *)&console_local_flags)))); case SYMVAL_UNBOUND_MARKER: return valcontents; default: ABORT (); } return Qnil; /* suppress compiler warning */ } /* Set the value of default-buffer-local variable SYM to VALUE. */ static void set_default_buffer_slot_variable (Lisp_Object sym, Lisp_Object value) { /* Handle variables like case-fold-search that have special slots in the buffer. Make them work apparently like buffer_local variables. */ /* At this point, the value cell may not contain a symbol-value-varalias or symbol-value-buffer-local, and if there's a handler, we should have already called it. */ Lisp_Object valcontents = fetch_value_maybe_past_magic (sym, Qt); const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (valcontents); int offset = ((Rawbyte *) symbol_value_forward_forward (fwd) - (Rawbyte *) &buffer_local_flags); int mask = XFIXNUM (*((Lisp_Object *) symbol_value_forward_forward (fwd))); int (*magicfun) (Lisp_Object simm, Lisp_Object *val, Lisp_Object in_object, int flags) = symbol_value_forward_magicfun (fwd); *((Lisp_Object *) (offset + (Rawbyte *) XBUFFER (Vbuffer_defaults))) = value; if (mask > 0) /* Not always per-buffer */ { /* Set value in each buffer which hasn't shadowed the default */ LIST_LOOP_2 (elt, Vbuffer_alist) { struct buffer *b = XBUFFER (XCDR (elt)); if (!(b->local_var_flags & mask)) { if (magicfun) magicfun (sym, &value, wrap_buffer (b), 0); *((Lisp_Object *) (offset + (Rawbyte *) b)) = value; } } } } /* Set the value of default-console-local variable SYM to VALUE. */ static void set_default_console_slot_variable (Lisp_Object sym, Lisp_Object value) { /* Handle variables like case-fold-search that have special slots in the console. Make them work apparently like console_local variables. */ /* At this point, the value cell may not contain a symbol-value-varalias or symbol-value-buffer-local, and if there's a handler, we should have already called it. */ Lisp_Object valcontents = fetch_value_maybe_past_magic (sym, Qt); const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (valcontents); int offset = ((Rawbyte *) symbol_value_forward_forward (fwd) - (Rawbyte *) &console_local_flags); int mask = XFIXNUM (*((Lisp_Object *) symbol_value_forward_forward (fwd))); int (*magicfun) (Lisp_Object simm, Lisp_Object *val, Lisp_Object in_object, int flags) = symbol_value_forward_magicfun (fwd); *((Lisp_Object *) (offset + (Rawbyte *) XCONSOLE (Vconsole_defaults))) = value; if (mask > 0) /* Not always per-console */ { /* Set value in each console which hasn't shadowed the default */ LIST_LOOP_2 (console, Vconsole_list) { struct console *d = XCONSOLE (console); if (!(d->local_var_flags & mask)) { if (magicfun) magicfun (sym, &value, console, 0); *((Lisp_Object *) (offset + (Rawbyte *) d)) = value; } } } } /* Store NEWVAL into SYM. SYM's value slot may *not* be types (5) or (6) above, i.e. no symbol-value-varalias objects. (You should have forwarded past all of these.) SYM should not be an unsettable symbol or a symbol with a magic `set-value' handler (unless you want to explicitly ignore this handler). OVALUE is the current value of SYM, but forwarded past any symbol-value-buffer-local and symbol-value-lisp-magic objects. (i.e. if SYM is a symbol-value-buffer-local, OVALUE should be the contents of its current-value cell.) NEWVAL may only be a simple value or Qunbound. If SYM is a symbol-value-buffer-local, this function will only modify its current-value cell, which should already be set up to point to the current buffer. */ static void store_symval_forwarding (Lisp_Object sym, Lisp_Object ovalue, Lisp_Object newval) { if (!SYMBOL_VALUE_MAGIC_P (ovalue) || UNBOUNDP (ovalue)) { Lisp_Object *store_pointer = value_slot_past_magic (sym); if (SYMBOL_VALUE_BUFFER_LOCAL_P (*store_pointer)) store_pointer = &XSYMBOL_VALUE_BUFFER_LOCAL (*store_pointer)->current_value; assert (UNBOUNDP (*store_pointer) || !SYMBOL_VALUE_MAGIC_P (*store_pointer)); *store_pointer = newval; } else { const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (ovalue); int (*magicfun) (Lisp_Object simm, Lisp_Object *val, Lisp_Object in_object, int flags) = symbol_value_forward_magicfun (fwd); switch (XSYMBOL_VALUE_MAGIC_TYPE (ovalue)) { case SYMVAL_FIXNUM_FORWARD: CHECK_FIXNUM (newval); if (magicfun) magicfun (sym, &newval, Qnil, 0); *((Fixnum *) symbol_value_forward_forward (fwd)) = XFIXNUM (newval); return; case SYMVAL_BOOLEAN_FORWARD: if (magicfun) magicfun (sym, &newval, Qnil, 0); *((int *) symbol_value_forward_forward (fwd)) = !NILP (newval); return; case SYMVAL_OBJECT_FORWARD: if (magicfun) magicfun (sym, &newval, Qnil, 0); *((Lisp_Object *) symbol_value_forward_forward (fwd)) = newval; return; case SYMVAL_DEFAULT_BUFFER_FORWARD: set_default_buffer_slot_variable (sym, newval); return; case SYMVAL_CURRENT_BUFFER_FORWARD: if (magicfun) magicfun (sym, &newval, wrap_buffer (current_buffer), 0); *((Lisp_Object *) ((Rawbyte *) current_buffer + ((Rawbyte *) symbol_value_forward_forward (fwd) - (Rawbyte *) &buffer_local_flags))) = newval; return; case SYMVAL_DEFAULT_CONSOLE_FORWARD: set_default_console_slot_variable (sym, newval); return; case SYMVAL_SELECTED_CONSOLE_FORWARD: if (magicfun) magicfun (sym, &newval, Vselected_console, 0); *((Lisp_Object *) ((Rawbyte *) XCONSOLE (Vselected_console) + ((Rawbyte *) symbol_value_forward_forward (fwd) - (Rawbyte *) &console_local_flags))) = newval; return; default: ABORT (); } } } /* Given a per-buffer variable SYMBOL and its raw value-cell contents BFWD, locate and return a pointer to the element in BUFFER's local_var_alist for SYMBOL. The return value will be Qnil if BUFFER does not have its own value for SYMBOL (i.e. the default value is seen in that buffer). */ static Lisp_Object buffer_local_alist_element (struct buffer *buffer, Lisp_Object symbol, struct symbol_value_buffer_local *bfwd) { if (!NILP (bfwd->current_buffer) && XBUFFER (bfwd->current_buffer) == buffer) /* This is just an optimization of the below. */ return bfwd->current_alist_element; else return assq_no_quit (symbol, buffer->local_var_alist); } /* [Remember that the slot that mirrors CURRENT-VALUE in the symbol-value-buffer-local of a per-buffer variable -- i.e. the slot in CURRENT-BUFFER's local_var_alist, or the DEFAULT-VALUE slot -- may be out of date.] Write out any cached value in buffer-local variable SYMBOL's buffer-local structure, which is passed in as BFWD. */ static void write_out_buffer_local_cache (Lisp_Object UNUSED (symbol), struct symbol_value_buffer_local *bfwd) { if (!NILP (bfwd->current_buffer)) { /* We pass 0 for BUFFER because only SYMVAL_CURRENT_BUFFER_FORWARD uses it, and that type cannot be inside a symbol-value-buffer-local */ Lisp_Object cval = do_symval_forwarding (bfwd->current_value, 0, 0); if (NILP (bfwd->current_alist_element)) /* current_value may be updated more recently than default_value */ bfwd->default_value = cval; else Fsetcdr (bfwd->current_alist_element, cval); } } /* SYM is a buffer-local variable, and BFWD is its buffer-local structure. Set up BFWD's cache for validity in buffer BUF. This assumes that the cache is currently in a consistent state (this can include not having any value cached, if BFWD->CURRENT_BUFFER is nil). If the cache is already set up for BUF, this function does nothing at all. Otherwise, if SYM forwards out to a C variable, this also forwards SYM's value in BUF out to the variable. Therefore, you generally only want to call this when BUF is, or is about to become, the current buffer. (Otherwise, you can just retrieve the value without changing the cache, at the expense of slower retrieval.) */ static void set_up_buffer_local_cache (Lisp_Object sym, struct symbol_value_buffer_local *bfwd, struct buffer *buf, Lisp_Object new_alist_el, int set_it_p) { Lisp_Object new_val; if (!NILP (bfwd->current_buffer) && buf == XBUFFER (bfwd->current_buffer)) /* Cache is already set up. */ return; /* Flush out the old cache. */ write_out_buffer_local_cache (sym, bfwd); /* Retrieve the new alist element and new value. */ if (NILP (new_alist_el) && set_it_p) new_alist_el = buffer_local_alist_element (buf, sym, bfwd); if (NILP (new_alist_el)) new_val = bfwd->default_value; else new_val = Fcdr (new_alist_el); bfwd->current_alist_element = new_alist_el; bfwd->current_buffer = wrap_buffer (buf); /* Now store the value into the current-value slot. We don't simply write it there, because the current-value slot might be a forwarding pointer, in which case we need to instead write the value into the C variable. We might also want to call a magic function. So instead, we call this function. */ store_symval_forwarding (sym, bfwd->current_value, new_val); } /* SYM is a buffer-local variable, and BFWD is its buffer-local structure. Flush the cache. BFWD->CURRENT_BUFFER will be nil after this operation. */ static void flush_buffer_local_cache (Lisp_Object sym, struct symbol_value_buffer_local *bfwd) { if (NILP (bfwd->current_buffer)) /* Cache is already flushed. */ return; /* Flush out the old cache. */ write_out_buffer_local_cache (sym, bfwd); bfwd->current_alist_element = Qnil; bfwd->current_buffer = Qnil; /* Now store default the value into the current-value slot. We don't simply write it there, because the current-value slot might be a forwarding pointer, in which case we need to instead write the value into the C variable. We might also want to call a magic function. So instead, we call this function. */ store_symval_forwarding (sym, bfwd->current_value, bfwd->default_value); } /* Flush all the buffer-local variable caches. Whoever has a non-interned buffer-local variable will be spanked. Whoever has a magic variable that interns or uninterns symbols... I don't even want to think about it. */ void flush_all_buffer_local_cache (void) { Lisp_Object *syms = XVECTOR_DATA (Vobarray); long count = XVECTOR_LENGTH (Vobarray); long i; for (i=0; ilocal_var_alist; !NILP (alist); alist = XCDR (alist)) { Lisp_Object sym = XCAR (XCAR (alist)); struct symbol_value_buffer_local *bfwd; /* Variables with a symbol-value-varalias should not be here (we should have forwarded past them) and there must be a symbol-value-buffer-local. If there's a symbol-value-lisp-magic, just forward past it; if the variable has a handler, it was already called. */ Lisp_Object value = fetch_value_maybe_past_magic (sym, Qt); assert (SYMBOL_VALUE_BUFFER_LOCAL_P (value)); bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (value); if (!NILP (Fget (sym, Qpermanent_local, Qnil))) /* prev points to the last alist element that is still staying around, so *only* update it now. This didn't used to be the case; this bug has been around since mly's rewrite two years ago! */ prev = alist; else { /* Really truly kill it. */ if (!NILP (prev)) XCDR (prev) = XCDR (alist); else buf->local_var_alist = XCDR (alist); /* We just effectively changed the value for this variable in BUF. So: */ /* (1) If the cache is caching BUF, invalidate the cache. */ if (!NILP (bfwd->current_buffer) && buf == XBUFFER (bfwd->current_buffer)) bfwd->current_buffer = Qnil; /* (2) If we changed the value in current_buffer and this variable forwards to a C variable, we need to change the value of the C variable. set_up_buffer_local_cache() will do this. It doesn't hurt to do it whenever BUF == current_buffer, so just go ahead and do that. */ if (buf == current_buffer) set_up_buffer_local_cache (sym, bfwd, buf, Qnil, 0); } } } static Lisp_Object find_symbol_value_1 (Lisp_Object sym, struct buffer *buf, struct console *con, int swap_it_in, Lisp_Object symcons, int set_it_p) { Lisp_Object valcontents; retry: valcontents = XSYMBOL (sym)->value; retry_2: if (!SYMBOL_VALUE_MAGIC_P (valcontents)) return valcontents; switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: /* #### kludge */ valcontents = XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed; /* semi-change-o */ goto retry_2; case SYMVAL_VARALIAS: sym = follow_varalias_pointers (sym, Qt /* #### kludge */); symcons = Qnil; /* presto change-o! */ goto retry; case SYMVAL_BUFFER_LOCAL: case SYMVAL_SOME_BUFFER_LOCAL: { struct symbol_value_buffer_local *bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (valcontents); if (swap_it_in) { set_up_buffer_local_cache (sym, bfwd, buf, symcons, set_it_p); valcontents = bfwd->current_value; } else { if (!NILP (bfwd->current_buffer) && buf == XBUFFER (bfwd->current_buffer)) valcontents = bfwd->current_value; else if (NILP (symcons)) { if (set_it_p) valcontents = assq_no_quit (sym, buf->local_var_alist); if (NILP (valcontents)) valcontents = bfwd->default_value; else valcontents = XCDR (valcontents); } else valcontents = XCDR (symcons); } break; } default: break; } return do_symval_forwarding (valcontents, buf, con); } /* Find the value of a symbol in BUFFER, returning Qunbound if it's not bound. Note that it must not be possible to QUIT within this function. */ Lisp_Object symbol_value_in_buffer (Lisp_Object sym, Lisp_Object buffer) { struct buffer *buf; CHECK_SYMBOL (sym); if (NILP (buffer)) buf = current_buffer; else { CHECK_BUFFER (buffer); buf = XBUFFER (buffer); } return find_symbol_value_1 (sym, buf, /* If it bombs out at startup due to a Lisp error, this may be nil. */ CONSOLEP (Vselected_console) ? XCONSOLE (Vselected_console) : 0, 0, Qnil, 1); } static Lisp_Object symbol_value_in_console (Lisp_Object sym, Lisp_Object console) { CHECK_SYMBOL (sym); if (NILP (console)) console = Vselected_console; else CHECK_CONSOLE (console); return find_symbol_value_1 (sym, current_buffer, XCONSOLE (console), 0, Qnil, 1); } /* Return the current value of SYM. The difference between this function and calling symbol_value_in_buffer with a BUFFER of Qnil is that this updates the CURRENT_VALUE slot of buffer-local variables to point to the current buffer, while symbol_value_in_buffer doesn't. */ Lisp_Object find_symbol_value (Lisp_Object sym) { /* WARNING: This function can be called when current_buffer is 0 and Vselected_console is Qnil, early in initialization. */ struct console *con; Lisp_Object valcontents; CHECK_SYMBOL (sym); valcontents = XSYMBOL (sym)->value; if (!SYMBOL_VALUE_MAGIC_P (valcontents)) return valcontents; if (CONSOLEP (Vselected_console)) con = XCONSOLE (Vselected_console); else { /* This can also get called while we're preparing to shutdown. #### What should really happen in that case? Should we actually fix things so we can't get here in that case? */ #ifndef PDUMP assert (!initialized || preparing_for_armageddon); #endif con = 0; } return find_symbol_value_1 (sym, current_buffer, con, 1, Qnil, 1); } /* This is an optimized function for quick lookup of buffer local symbols by avoiding O(n) search. This will work when either: a) We have already found the symbol e.g. by traversing local_var_alist. or b) We know that the symbol will not be found in the current buffer's list of local variables. In the former case, find_it_p is 1 and symbol_cons is the element from local_var_alist. In the latter case, find_it_p is 0 and symbol_cons is the symbol. This function is called from set_buffer_internal which does both of these things. */ Lisp_Object find_symbol_value_quickly (Lisp_Object symbol_cons, int find_it_p) { /* WARNING: This function can be called when current_buffer is 0 and Vselected_console is Qnil, early in initialization. */ struct console *con; Lisp_Object sym = find_it_p ? XCAR (symbol_cons) : symbol_cons; CHECK_SYMBOL (sym); if (CONSOLEP (Vselected_console)) con = XCONSOLE (Vselected_console); else { /* This can also get called while we're preparing to shutdown. #### What should really happen in that case? Should we actually fix things so we can't get here in that case? */ #ifndef PDUMP assert (!initialized || preparing_for_armageddon); #endif con = 0; } return find_symbol_value_1 (sym, current_buffer, con, 1, find_it_p ? symbol_cons : Qnil, find_it_p); } DEFUN ("symbol-value", Fsymbol_value, 1, 1, 0, /* Return SYMBOL's value. Error if that is void. */ (symbol)) { Lisp_Object val = find_symbol_value (symbol); if (UNBOUNDP (val)) return Fsignal (Qvoid_variable, list1 (symbol)); else return val; } DEFUN ("set", Fset, 2, 2, 0, /* Set SYMBOL's value to NEWVAL, and return NEWVAL. */ (symbol, newval)) { REGISTER Lisp_Object valcontents; Lisp_Symbol *sym; /* remember, we're called by Fmakunbound() as well */ CHECK_SYMBOL (symbol); retry: sym = XSYMBOL (symbol); valcontents = sym->value; if (EQ (symbol, Qnil) || EQ (symbol, Qt) || SYMBOL_IS_KEYWORD (symbol)) reject_constant_symbols (symbol, newval, 0, UNBOUNDP (newval) ? Qmakunbound : Qset); if (!SYMBOL_VALUE_MAGIC_P (valcontents) || UNBOUNDP (valcontents)) { sym->value = newval; return newval; } reject_constant_symbols (symbol, newval, 0, UNBOUNDP (newval) ? Qmakunbound : Qset); switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: { if (UNBOUNDP (newval)) { maybe_call_magic_handler (symbol, Qmakunbound, 0); return XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed = Qunbound; } else { maybe_call_magic_handler (symbol, Qset, 1, newval); return XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed = newval; } } case SYMVAL_VARALIAS: symbol = follow_varalias_pointers (symbol, UNBOUNDP (newval) ? Qmakunbound : Qset); /* presto change-o! */ goto retry; case SYMVAL_FIXNUM_FORWARD: case SYMVAL_CONST_FIXNUM_FORWARD: case SYMVAL_BOOLEAN_FORWARD: case SYMVAL_CONST_BOOLEAN_FORWARD: case SYMVAL_DEFAULT_BUFFER_FORWARD: case SYMVAL_DEFAULT_CONSOLE_FORWARD: if (UNBOUNDP (newval)) { #ifdef HAVE_SHLIB if (unloading_module) { sym->value = newval; return newval; } else #endif invalid_change ("Cannot makunbound", symbol); } break; case SYMVAL_OBJECT_FORWARD: case SYMVAL_CONST_OBJECT_FORWARD: if (UNBOUNDP (newval)) { #ifdef HAVE_SHLIB if (unloading_module) { unstaticpro_nodump ((Lisp_Object *) symbol_value_forward_forward (XSYMBOL_VALUE_FORWARD (valcontents))); sym->value = newval; return newval; } else #endif invalid_change ("Cannot makunbound", symbol); } break; /* case SYMVAL_UNBOUND_MARKER: break; */ case SYMVAL_CURRENT_BUFFER_FORWARD: { const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (valcontents); int mask = XFIXNUM (*((Lisp_Object *) symbol_value_forward_forward (fwd))); if (mask > 0) /* Setting this variable makes it buffer-local */ current_buffer->local_var_flags |= mask; break; } case SYMVAL_SELECTED_CONSOLE_FORWARD: { const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (valcontents); int mask = XFIXNUM (*((Lisp_Object *) symbol_value_forward_forward (fwd))); if (mask > 0) /* Setting this variable makes it console-local */ XCONSOLE (Vselected_console)->local_var_flags |= mask; break; } case SYMVAL_BUFFER_LOCAL: case SYMVAL_SOME_BUFFER_LOCAL: { /* If we want to examine or set the value and CURRENT-BUFFER is current, we just examine or set CURRENT-VALUE. If CURRENT-BUFFER is not current, we store the current CURRENT-VALUE value into CURRENT-ALIST- ELEMENT, then find the appropriate alist element for the buffer now current and set up CURRENT-ALIST-ELEMENT. Then we set CURRENT-VALUE out of that element, and store into CURRENT-BUFFER. If we are setting the variable and the current buffer does not have an alist entry for this variable, an alist entry is created. Note that CURRENT-VALUE can be a forwarding pointer. Each time it is examined or set, forwarding must be done. */ struct symbol_value_buffer_local *bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (valcontents); int some_buffer_local_p = (bfwd->magic.type == SYMVAL_SOME_BUFFER_LOCAL); /* What value are we caching right now? */ Lisp_Object aelt = bfwd->current_alist_element; if (!NILP (bfwd->current_buffer) && current_buffer == XBUFFER (bfwd->current_buffer) && ((some_buffer_local_p) ? 1 /* doesn't automatically become local */ : !NILP (aelt) /* already local */ )) { /* Cache is valid */ valcontents = bfwd->current_value; } else { /* If the current buffer is not the buffer whose binding is currently cached, or if it's a SYMVAL_BUFFER_LOCAL and we're looking at the default value, the cache is invalid; we need to write it out, and find the new CURRENT-ALIST-ELEMENT */ /* Write out the cached value for the old buffer; copy it back to its alist element. This works if the current buffer only sees the default value, too. */ write_out_buffer_local_cache (symbol, bfwd); /* Find the new value for CURRENT-ALIST-ELEMENT. */ aelt = buffer_local_alist_element (current_buffer, symbol, bfwd); if (NILP (aelt)) { /* This buffer is still seeing the default value. */ if (!some_buffer_local_p) { /* If it's a SYMVAL_BUFFER_LOCAL, give this buffer a new assoc for a local value and set CURRENT-ALIST-ELEMENT to point to that. */ aelt = do_symval_forwarding (bfwd->current_value, current_buffer, XCONSOLE (Vselected_console)); aelt = Fcons (symbol, aelt); current_buffer->local_var_alist = Fcons (aelt, current_buffer->local_var_alist); } else { /* If the variable is a SYMVAL_SOME_BUFFER_LOCAL, we're currently seeing the default value. */ ; } } /* Cache the new buffer's assoc in CURRENT-ALIST-ELEMENT. */ bfwd->current_alist_element = aelt; /* Set BUFFER, now that CURRENT-ALIST-ELEMENT is accurate. */ bfwd->current_buffer = wrap_buffer (current_buffer); valcontents = bfwd->current_value; } break; } default: ABORT (); } store_symval_forwarding (symbol, valcontents, newval); return newval; } /* Access or set a buffer-local symbol's default value. */ /* Return the default value of SYM, but don't check for voidness. Return Qunbound if it is void. */ static Lisp_Object default_value (Lisp_Object sym) { Lisp_Object valcontents; CHECK_SYMBOL (sym); retry: valcontents = XSYMBOL (sym)->value; retry_2: if (!SYMBOL_VALUE_MAGIC_P (valcontents)) return valcontents; switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: /* #### kludge */ valcontents = XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed; /* semi-change-o */ goto retry_2; case SYMVAL_VARALIAS: sym = follow_varalias_pointers (sym, Qt /* #### kludge */); /* presto change-o! */ goto retry; case SYMVAL_UNBOUND_MARKER: return valcontents; case SYMVAL_CURRENT_BUFFER_FORWARD: { const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (valcontents); return (*((Lisp_Object *)((Rawbyte *) XBUFFER (Vbuffer_defaults) + ((Rawbyte *)symbol_value_forward_forward (fwd) - (Rawbyte *)&buffer_local_flags)))); } case SYMVAL_SELECTED_CONSOLE_FORWARD: { const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (valcontents); return (*((Lisp_Object *)((Rawbyte *) XCONSOLE (Vconsole_defaults) + ((Rawbyte *)symbol_value_forward_forward (fwd) - (Rawbyte *)&console_local_flags)))); } case SYMVAL_BUFFER_LOCAL: case SYMVAL_SOME_BUFFER_LOCAL: { struct symbol_value_buffer_local *bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (valcontents); /* Handle user-created local variables. */ /* If var is set up for a buffer that lacks a local value for it, the current value is nominally the default value. But the current value slot may be more up to date, since ordinary setq stores just that slot. So use that. */ if (NILP (bfwd->current_alist_element)) return do_symval_forwarding (bfwd->current_value, current_buffer, XCONSOLE (Vselected_console)); else return bfwd->default_value; } default: /* For other variables, get the current value. */ return do_symval_forwarding (valcontents, current_buffer, XCONSOLE (Vselected_console)); } RETURN_NOT_REACHED (Qnil); /* suppress compiler warning */ } DEFUN ("default-boundp", Fdefault_boundp, 1, 1, 0, /* Return t if SYMBOL has a non-void default value. This is the value that is seen in buffers that do not have their own values for this variable. */ (symbol)) { return UNBOUNDP (default_value (symbol)) ? Qnil : Qt; } DEFUN ("default-value", Fdefault_value, 1, 1, 0, /* Return SYMBOL's default value. This is the value that is seen in buffers that do not have their own values for this variable. The default value is meaningful for variables with local bindings in certain buffers. */ (symbol)) { Lisp_Object value = default_value (symbol); return UNBOUNDP (value) ? Fsignal (Qvoid_variable, list1 (symbol)) : value; } DEFUN ("set-default", Fset_default, 2, 2, 0, /* Set SYMBOL's default value to VALUE. SYMBOL and VALUE are evaluated. The default value is seen in buffers that do not have their own values for this variable. */ (symbol, value)) { Lisp_Object valcontents; CHECK_SYMBOL (symbol); retry: valcontents = XSYMBOL (symbol)->value; retry_2: if (!SYMBOL_VALUE_MAGIC_P (valcontents)) return Fset (symbol, value); switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: RETURN_IF_NOT_UNBOUND (maybe_call_magic_handler (symbol, Qset_default, 1, value)); valcontents = XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed; /* semi-change-o */ goto retry_2; case SYMVAL_VARALIAS: symbol = follow_varalias_pointers (symbol, Qset_default); /* presto change-o! */ goto retry; case SYMVAL_CURRENT_BUFFER_FORWARD: set_default_buffer_slot_variable (symbol, value); return value; case SYMVAL_SELECTED_CONSOLE_FORWARD: set_default_console_slot_variable (symbol, value); return value; case SYMVAL_BUFFER_LOCAL: case SYMVAL_SOME_BUFFER_LOCAL: { /* Store new value into the DEFAULT-VALUE slot */ struct symbol_value_buffer_local *bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (valcontents); bfwd->default_value = value; /* If current-buffer doesn't shadow default_value, * we must set the CURRENT-VALUE slot too */ if (NILP (bfwd->current_alist_element)) store_symval_forwarding (symbol, bfwd->current_value, value); return value; } default: return Fset (symbol, value); } } DEFUN ("setq-default", Fsetq_default, 0, UNEVALLED, 0, /* Set the default value of variable SYMBOL to VALUE. SYMBOL, the variable name, is literal (not evaluated); VALUE is an expression and it is evaluated. The default value of a variable is seen in buffers that do not have their own values for the variable. More generally, you can use multiple variables and values, as in (setq-default SYMBOL VALUE SYMBOL VALUE...) This sets each SYMBOL's default value to the corresponding VALUE. The VALUE for the Nth SYMBOL can refer to the new default values of previous SYMBOLs. */ (args)) { /* This function can GC */ int nargs; Lisp_Object retval = Qnil; GET_LIST_LENGTH (args, nargs); if (nargs & 1) /* Odd number of arguments? */ Fsignal (Qwrong_number_of_arguments, list2 (Qsetq_default, make_fixnum (nargs))); GC_PROPERTY_LIST_LOOP_3 (symbol, val, args) { val = IGNORE_MULTIPLE_VALUES (Feval (val)); Fset_default (symbol, val); retval = val; } END_GC_PROPERTY_LIST_LOOP (symbol); return retval; } /* Lisp functions for creating and removing buffer-local variables. */ DEFUN ("make-variable-buffer-local", Fmake_variable_buffer_local, 1, 1, "vMake Variable Buffer Local: ", /* Make VARIABLE have a separate value for each buffer. At any time, the value for the current buffer is in effect. There is also a default value which is seen in any buffer which has not yet set its own value. Using `set' or `setq' to set the variable causes it to have a separate value for the current buffer if it was previously using the default value. The function `default-value' gets the default value and `set-default' sets it. */ (variable)) { Lisp_Object valcontents; CHECK_SYMBOL (variable); retry: verify_ok_for_buffer_local (variable, Qmake_variable_buffer_local); valcontents = XSYMBOL (variable)->value; retry_2: if (SYMBOL_VALUE_MAGIC_P (valcontents)) { switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: if (!UNBOUNDP (maybe_call_magic_handler (variable, Qmake_variable_buffer_local, 0))) return variable; valcontents = XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed; /* semi-change-o */ goto retry_2; case SYMVAL_VARALIAS: variable = follow_varalias_pointers (variable, Qmake_variable_buffer_local); /* presto change-o! */ goto retry; case SYMVAL_FIXNUM_FORWARD: case SYMVAL_BOOLEAN_FORWARD: case SYMVAL_OBJECT_FORWARD: case SYMVAL_UNBOUND_MARKER: break; case SYMVAL_CURRENT_BUFFER_FORWARD: case SYMVAL_BUFFER_LOCAL: /* Already per-each-buffer */ return variable; case SYMVAL_SOME_BUFFER_LOCAL: /* Transmogrify */ XSYMBOL_VALUE_BUFFER_LOCAL (valcontents)->magic.type = SYMVAL_BUFFER_LOCAL; return variable; default: ABORT (); } } { struct symbol_value_buffer_local *bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (ALLOC_NORMAL_LISP_OBJECT (symbol_value_buffer_local)); Lisp_Object foo; bfwd->magic.type = SYMVAL_BUFFER_LOCAL; bfwd->default_value = find_symbol_value (variable); bfwd->current_value = valcontents; bfwd->current_alist_element = Qnil; bfwd->current_buffer = Fcurrent_buffer (); foo = wrap_symbol_value_magic (bfwd); *value_slot_past_magic (variable) = foo; #if 1 /* #### Yuck! FSFmacs bug-compatibility*/ /* This sets the default-value of any make-variable-buffer-local to nil. That just sucks. User can just use setq-default to effect that, but there's no way to do makunbound-default to undo this lossage. */ if (UNBOUNDP (valcontents)) bfwd->default_value = Qnil; #endif #if 0 /* #### Yuck! */ /* This sets the value to nil in this buffer. User could use (setq variable nil) to do this. It isn't as egregious to do this automatically as it is to do so to the default-value, but it's still really dubious. */ if (UNBOUNDP (valcontents)) Fset (variable, Qnil); #endif return variable; } } DEFUN ("make-local-variable", Fmake_local_variable, 1, 1, "vMake Local Variable: ", /* Make VARIABLE have a separate value in the current buffer. Other buffers will continue to share a common default value. \(The buffer-local value of VARIABLE starts out as the same value VARIABLE previously had. If VARIABLE was void, it remains void.) See also `make-variable-buffer-local'. If the variable is already arranged to become local when set, this function causes a local value to exist for this buffer, just as setting the variable would do. Do not use `make-local-variable' to make a hook variable buffer-local. Use `make-local-hook' instead. */ (variable)) { Lisp_Object valcontents; struct symbol_value_buffer_local *bfwd; CHECK_SYMBOL (variable); retry: verify_ok_for_buffer_local (variable, Qmake_local_variable); valcontents = XSYMBOL (variable)->value; retry_2: if (SYMBOL_VALUE_MAGIC_P (valcontents)) { switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: if (!UNBOUNDP (maybe_call_magic_handler (variable, Qmake_local_variable, 0))) return variable; valcontents = XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed; /* semi-change-o */ goto retry_2; case SYMVAL_VARALIAS: variable = follow_varalias_pointers (variable, Qmake_local_variable); /* presto change-o! */ goto retry; case SYMVAL_FIXNUM_FORWARD: case SYMVAL_BOOLEAN_FORWARD: case SYMVAL_OBJECT_FORWARD: case SYMVAL_UNBOUND_MARKER: break; case SYMVAL_BUFFER_LOCAL: case SYMVAL_CURRENT_BUFFER_FORWARD: { /* Make sure the symbol has a local value in this particular buffer, by setting it to the same value it already has. */ Fset (variable, find_symbol_value (variable)); return variable; } case SYMVAL_SOME_BUFFER_LOCAL: { if (!NILP (buffer_local_alist_element (current_buffer, variable, (XSYMBOL_VALUE_BUFFER_LOCAL (valcontents))))) goto already_local_to_current_buffer; else goto already_local_to_some_other_buffer; } default: ABORT (); } } /* Make sure variable is set up to hold per-buffer values */ bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (ALLOC_NORMAL_LISP_OBJECT (symbol_value_buffer_local)); bfwd->magic.type = SYMVAL_SOME_BUFFER_LOCAL; bfwd->current_buffer = Qnil; bfwd->current_alist_element = Qnil; bfwd->current_value = valcontents; /* passing 0 is OK because this should never be a SYMVAL_CURRENT_BUFFER_FORWARD or SYMVAL_SELECTED_CONSOLE_FORWARD variable. */ bfwd->default_value = do_symval_forwarding (valcontents, 0, 0); #if 0 if (UNBOUNDP (bfwd->default_value)) bfwd->default_value = Qnil; /* Yuck! */ #endif valcontents = wrap_symbol_value_magic (bfwd); *value_slot_past_magic (variable) = valcontents; already_local_to_some_other_buffer: /* Make sure this buffer has its own value of variable */ bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (valcontents); if (UNBOUNDP (bfwd->default_value)) { /* If default value is unbound, set local value to nil. */ bfwd->current_buffer = wrap_buffer (current_buffer); bfwd->current_alist_element = Fcons (variable, Qnil); current_buffer->local_var_alist = Fcons (bfwd->current_alist_element, current_buffer->local_var_alist); store_symval_forwarding (variable, bfwd->current_value, Qnil); return variable; } current_buffer->local_var_alist = Fcons (Fcons (variable, bfwd->default_value), current_buffer->local_var_alist); /* Make sure symbol does not think it is set up for this buffer; force it to look once again for this buffer's value */ if (!NILP (bfwd->current_buffer) && current_buffer == XBUFFER (bfwd->current_buffer)) bfwd->current_buffer = Qnil; already_local_to_current_buffer: /* If the symbol forwards into a C variable, then swap in the variable for this buffer immediately. If C code modifies the variable before we swap in, then that new value will clobber the default value the next time we swap. */ bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (valcontents); if (SYMBOL_VALUE_MAGIC_P (bfwd->current_value)) { switch (XSYMBOL_VALUE_MAGIC_TYPE (bfwd->current_value)) { case SYMVAL_FIXNUM_FORWARD: case SYMVAL_BOOLEAN_FORWARD: case SYMVAL_OBJECT_FORWARD: case SYMVAL_DEFAULT_BUFFER_FORWARD: set_up_buffer_local_cache (variable, bfwd, current_buffer, Qnil, 1); break; case SYMVAL_UNBOUND_MARKER: case SYMVAL_CURRENT_BUFFER_FORWARD: break; default: ABORT (); } } return variable; } DEFUN ("kill-local-variable", Fkill_local_variable, 1, 1, "vKill Local Variable: ", /* Make VARIABLE no longer have a separate value in the current buffer. From now on the default value will apply in this buffer. */ (variable)) { Lisp_Object valcontents; CHECK_SYMBOL (variable); retry: valcontents = XSYMBOL (variable)->value; retry_2: if (!SYMBOL_VALUE_MAGIC_P (valcontents)) return variable; switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: if (!UNBOUNDP (maybe_call_magic_handler (variable, Qkill_local_variable, 0))) return variable; valcontents = XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed; /* semi-change-o */ goto retry_2; case SYMVAL_VARALIAS: variable = follow_varalias_pointers (variable, Qkill_local_variable); /* presto change-o! */ goto retry; case SYMVAL_CURRENT_BUFFER_FORWARD: { const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (valcontents); int offset = ((Rawbyte *) symbol_value_forward_forward (fwd) - (Rawbyte *) &buffer_local_flags); int mask = XFIXNUM (*((Lisp_Object *) symbol_value_forward_forward (fwd))); if (mask > 0) { int (*magicfun) (Lisp_Object sym, Lisp_Object *val, Lisp_Object in_object, int flags) = symbol_value_forward_magicfun (fwd); Lisp_Object oldval = * (Lisp_Object *) (offset + (Rawbyte *) XBUFFER (Vbuffer_defaults)); if (magicfun) (magicfun) (variable, &oldval, wrap_buffer (current_buffer), 0); *(Lisp_Object *) (offset + (Rawbyte *) current_buffer) = oldval; current_buffer->local_var_flags &= ~mask; } return variable; } case SYMVAL_BUFFER_LOCAL: case SYMVAL_SOME_BUFFER_LOCAL: { /* Get rid of this buffer's alist element, if any */ struct symbol_value_buffer_local *bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (valcontents); Lisp_Object alist = current_buffer->local_var_alist; Lisp_Object alist_element = buffer_local_alist_element (current_buffer, variable, bfwd); if (!NILP (alist_element)) current_buffer->local_var_alist = delq_no_quit (alist_element, alist); /* Make sure symbol does not think it is set up for this buffer; force it to look once again for this buffer's value */ if (!NILP (bfwd->current_buffer) && current_buffer == XBUFFER (bfwd->current_buffer)) bfwd->current_buffer = Qnil; /* We just changed the value in the current_buffer. If this variable forwards to a C variable, we need to change the value of the C variable. set_up_buffer_local_cache() will do this. It doesn't hurt to do it always, so just go ahead and do that. */ set_up_buffer_local_cache (variable, bfwd, current_buffer, Qnil, 1); } return variable; default: return variable; } RETURN_NOT_REACHED(Qnil); /* suppress compiler warning */ } DEFUN ("kill-console-local-variable", Fkill_console_local_variable, 1, 1, "vKill Console Local Variable: ", /* Make VARIABLE no longer have a separate value in the selected console. From now on the default value will apply in this console. */ (variable)) { Lisp_Object valcontents; CHECK_SYMBOL (variable); retry: valcontents = XSYMBOL (variable)->value; retry_2: if (!SYMBOL_VALUE_MAGIC_P (valcontents)) return variable; switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: if (!UNBOUNDP (maybe_call_magic_handler (variable, Qkill_console_local_variable, 0))) return variable; valcontents = XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed; /* semi-change-o */ goto retry_2; case SYMVAL_VARALIAS: variable = follow_varalias_pointers (variable, Qkill_console_local_variable); /* presto change-o! */ goto retry; case SYMVAL_SELECTED_CONSOLE_FORWARD: { const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (valcontents); int offset = ((Rawbyte *) symbol_value_forward_forward (fwd) - (Rawbyte *) &console_local_flags); int mask = XFIXNUM (*((Lisp_Object *) symbol_value_forward_forward (fwd))); if (mask > 0) { int (*magicfun) (Lisp_Object sym, Lisp_Object *val, Lisp_Object in_object, int flags) = symbol_value_forward_magicfun (fwd); Lisp_Object oldval = * (Lisp_Object *) (offset + (Rawbyte *) XCONSOLE (Vconsole_defaults)); if (magicfun) magicfun (variable, &oldval, Vselected_console, 0); *(Lisp_Object *) (offset + (Rawbyte *) XCONSOLE (Vselected_console)) = oldval; XCONSOLE (Vselected_console)->local_var_flags &= ~mask; } return variable; } default: return variable; } } /* Used by specbind to determine what effects it might have. Returns: * 0 if symbol isn't buffer-local, and wouldn't be after it is set * <0 if symbol isn't presently buffer-local, but set would make it so * >0 if symbol is presently buffer-local */ int symbol_value_buffer_local_info (Lisp_Object symbol, struct buffer *buffer) { Lisp_Object valcontents; retry: valcontents = XSYMBOL (symbol)->value; retry_2: if (SYMBOL_VALUE_MAGIC_P (valcontents)) { switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: /* #### kludge */ valcontents = XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed; /* semi-change-o */ goto retry_2; case SYMVAL_VARALIAS: symbol = follow_varalias_pointers (symbol, Qt /* #### kludge */); /* presto change-o! */ goto retry; case SYMVAL_CURRENT_BUFFER_FORWARD: { const struct symbol_value_forward *fwd = XSYMBOL_VALUE_FORWARD (valcontents); int mask = XFIXNUM (*((Lisp_Object *) symbol_value_forward_forward (fwd))); if ((mask <= 0) || (buffer && (buffer->local_var_flags & mask))) /* Already buffer-local */ return 1; else /* Would be buffer-local after set */ return -1; } case SYMVAL_BUFFER_LOCAL: case SYMVAL_SOME_BUFFER_LOCAL: { struct symbol_value_buffer_local *bfwd = XSYMBOL_VALUE_BUFFER_LOCAL (valcontents); if (buffer && !NILP (buffer_local_alist_element (buffer, symbol, bfwd))) return 1; else /* Automatically becomes local when set */ return bfwd->magic.type == SYMVAL_BUFFER_LOCAL ? -1 : 0; } default: return 0; } } return 0; } DEFUN ("symbol-value-in-buffer", Fsymbol_value_in_buffer, 2, 3, 0, /* Return the value of SYMBOL in BUFFER, or UNBOUND-VALUE if it is unbound. */ (symbol, buffer, unbound_value)) { Lisp_Object value; CHECK_SYMBOL (symbol); CHECK_BUFFER (buffer); value = symbol_value_in_buffer (symbol, buffer); return UNBOUNDP (value) ? unbound_value : value; } DEFUN ("symbol-value-in-console", Fsymbol_value_in_console, 2, 3, 0, /* Return the value of SYMBOL in CONSOLE, or UNBOUND-VALUE if it is unbound. */ (symbol, console, unbound_value)) { Lisp_Object value; CHECK_SYMBOL (symbol); CHECK_CONSOLE (console); value = symbol_value_in_console (symbol, console); return UNBOUNDP (value) ? unbound_value : value; } DEFUN ("built-in-variable-type", Fbuilt_in_variable_type, 1, 1, 0, /* If SYMBOL is a built-in variable, return info about this; else return nil. The returned info will be a symbol, one of `object' A simple built-in variable. `const-object' Same, but cannot be set. `integer' A built-in integer variable. `const-integer' Same, but cannot be set. `boolean' A built-in boolean variable. `const-boolean' Same, but cannot be set. `const-specifier' Always contains a specifier; e.g. `has-modeline-p'. `current-buffer' A built-in buffer-local variable. `const-current-buffer' Same, but cannot be set. `default-buffer' Forwards to the default value of a built-in buffer-local variable. `selected-console' A built-in console-local variable. `const-selected-console' Same, but cannot be set. `default-console' Forwards to the default value of a built-in console-local variable. */ (symbol)) { REGISTER Lisp_Object valcontents; CHECK_SYMBOL (symbol); retry: valcontents = XSYMBOL (symbol)->value; retry_2: if (!SYMBOL_VALUE_MAGIC_P (valcontents)) return Qnil; switch (XSYMBOL_VALUE_MAGIC_TYPE (valcontents)) { case SYMVAL_LISP_MAGIC: valcontents = XSYMBOL_VALUE_LISP_MAGIC (valcontents)->shadowed; /* semi-change-o */ goto retry_2; case SYMVAL_VARALIAS: symbol = follow_varalias_pointers (symbol, Qt); /* presto change-o! */ goto retry; case SYMVAL_BUFFER_LOCAL: case SYMVAL_SOME_BUFFER_LOCAL: valcontents = XSYMBOL_VALUE_BUFFER_LOCAL (valcontents)->current_value; /* semi-change-o */ goto retry_2; case SYMVAL_FIXNUM_FORWARD: return Qinteger; case SYMVAL_CONST_FIXNUM_FORWARD: return Qconst_integer; case SYMVAL_BOOLEAN_FORWARD: return Qboolean; case SYMVAL_CONST_BOOLEAN_FORWARD: return Qconst_boolean; case SYMVAL_OBJECT_FORWARD: return Qobject; case SYMVAL_CONST_OBJECT_FORWARD: return Qconst_object; case SYMVAL_CONST_SPECIFIER_FORWARD: return Qconst_specifier; case SYMVAL_DEFAULT_BUFFER_FORWARD: return Qdefault_buffer; case SYMVAL_CURRENT_BUFFER_FORWARD: return Qcurrent_buffer; case SYMVAL_CONST_CURRENT_BUFFER_FORWARD: return Qconst_current_buffer; case SYMVAL_DEFAULT_CONSOLE_FORWARD: return Qdefault_console; case SYMVAL_SELECTED_CONSOLE_FORWARD: return Qselected_console; case SYMVAL_CONST_SELECTED_CONSOLE_FORWARD: return Qconst_selected_console; case SYMVAL_UNBOUND_MARKER: return Qnil; default: ABORT (); return Qnil; } } DEFUN ("local-variable-p", Flocal_variable_p, 2, 3, 0, /* Return t if SYMBOL's value is local to BUFFER. If optional third arg AFTER-SET is non-nil, return t if SYMBOL would be buffer-local after it is set, regardless of whether it is so presently. A nil value for BUFFER is *not* the same as (current-buffer), but means "no buffer". Specifically: -- If BUFFER is nil and AFTER-SET is nil, a return value of t indicates that the variable is one of the special built-in variables that is always buffer-local. (This includes `buffer-file-name', `buffer-read-only', `buffer-undo-list', and others.) -- If BUFFER is nil and AFTER-SET is t, a return value of t indicates that the variable has had `make-variable-buffer-local' applied to it. */ (symbol, buffer, after_set)) { int local_info; CHECK_SYMBOL (symbol); if (!NILP (buffer)) { buffer = get_buffer (buffer, 1); local_info = symbol_value_buffer_local_info (symbol, XBUFFER (buffer)); } else { local_info = symbol_value_buffer_local_info (symbol, 0); } if (NILP (after_set)) return local_info > 0 ? Qt : Qnil; else return local_info != 0 ? Qt : Qnil; } DEFUN ("custom-variable-p", Fcustom_variable_p, 1, 1, 0, /* Return non-nil if SYMBOL names a custom variable. Does not follow the variable alias chain. */ (symbol)) { return (!(NILP (Fget(symbol, intern ("standard-value"), Qnil))) || !(NILP (Fget(symbol, intern ("custom-autoload"), Qnil)))) ? Qt: Qnil; } static Lisp_Object user_variable_alias_check_fun (Lisp_Object symbol) { Lisp_Object documentation = Fget (symbol, Qvariable_documentation, Qnil); if ((FIXNUMP (documentation) && XFIXNUM (documentation) < 0) || (STRINGP (documentation) && (string_byte (documentation, 0) == '*')) || /* If (STRING . INTEGER), a negative integer means a user variable. */ (CONSP (documentation) && STRINGP (XCAR (documentation)) && FIXNUMP (XCDR (documentation)) && XFIXNUM (XCDR (documentation)) < 0) || !NILP (Fcustom_variable_p (symbol))) { return make_fixnum(1); } return Qzero; } DEFUN ("user-variable-p", Fuser_variable_p, 1, 1, 0, /* Return t if SYMBOL names a variable intended to be set and modified by users. \(The alternative is a variable used internally in a Lisp program.) A symbol names a user variable if \(1) the first character of its documentation is `*', or \(2) it is customizable (`custom-variable-p' gives t), or \(3) it names a variable alias that eventually resolves to another user variable. The GNU Emacs implementation of `user-variable-p' returns nil if there is a loop in the chain of symbols. Since this is indistinguishable from the case where a symbol names a non-user variable, XEmacs signals a `cyclic-variable-indirection' error instead; use `condition-case' to catch this error if you really want to avoid this. */ (symbol)) { Lisp_Object mapped; if (!SYMBOLP (symbol)) { return Qnil; } /* Called for its side-effects, we want it to signal if there's a loop. */ follow_varalias_pointers (symbol, Qt); /* Look through the various aliases. */ mapped = map_varalias_chain (symbol, Qt, user_variable_alias_check_fun); if (EQ (Qzero, mapped)) { return Qnil; } assert (EQ (make_fixnum (1), mapped)); return Qt; } /* I've gone ahead and partially implemented this because it's super-useful for dealing with the compatibility problems in supporting the old pointer-shape variables, and preventing people from `setq'ing the new variables. Any other way of handling this problem is way ugly, likely to be slow, and generally not something I want to waste my time worrying about. The interface and/or function name is sure to change before this gets into its final form. I currently like the way everything is set up and it has all the features I want it to have, except for one: I really want to be able to have multiple nested handlers, to implement an `advice'-like capability. This would allow, for example, a clean way of implementing `debug-if-set' or `debug-if-referenced' and such. NOTE NOTE NOTE NOTE NOTE NOTE NOTE: ************************************************************ **Only** the `set-value', `make-unbound', and `make-local' handler types are currently implemented. Implementing the get-value and bound-predicate handlers is somewhat tricky because there are lots of subfunctions (e.g. find_symbol_value()). find_symbol_value(), in fact, is called from outside of this module. You'd have to have it do this: -- check for a `bound-predicate' handler, call that if so; if it returns nil, return Qunbound -- check for a `get-value' handler and call it and return that value It gets even trickier when you have to deal with sub-subfunctions like find_symbol_value_1(), and esp. when you have to properly handle variable aliases, which can lead to lots of tricky situations. So I've just punted on this, since the interface isn't officially exported and we can get by with just a `set-value' handler. Actions in unimplemented handler types will correctly ignore any handlers, and will not fuck anything up or go awry. WARNING WARNING: If you do go and implement another type of handler, make *sure* to change would_be_magic_handled() so it knows about this, or dire things could result. ************************************************************ NOTE NOTE NOTE NOTE NOTE NOTE NOTE Real documentation is as follows. Set a magic handler for VARIABLE. This allows you to specify arbitrary behavior that results from accessing or setting a variable. For example, retrieving the variable's value might actually retrieve the first element off of a list stored in another variable, and setting the variable's value might add an element to the front of that list. (This is how the obsolete variable `unread-command-event' is implemented.) In general it is NOT good programming practice to use magic variables in a new package that you are designing. If you feel the need to do this, it's almost certainly a sign that you should be using a function instead of a variable. This facility is provided to allow a package to support obsolete variables and provide compatibility with similar packages with different variable names and semantics. By using magic handlers, you can cleanly provide obsoleteness and compatibility support and separate this support from the core routines in a package. VARIABLE should be a symbol naming the variable for which the magic behavior is provided. HANDLER-TYPE is a symbol specifying which behavior is being controlled, and HANDLER is the function that will be called to control this behavior. HARG is a value that will be passed to HANDLER but is otherwise uninterpreted. KEEP-EXISTING specifies what to do with existing handlers of the same type; nil means "erase them all", t means "keep them but insert at the beginning", the list (t) means "keep them but insert at the end", a function means "keep them but insert before the specified function", a list containing a function means "keep them but insert after the specified function". You can specify magic behavior for any type of variable at all, and for any handler types that are unspecified, the standard behavior applies. This allows you, for example, to use `defvaralias' in conjunction with this function. (For that matter, `defvaralias' could be implemented using this function.) The behaviors that can be specified in HANDLER-TYPE are get-value (SYM ARGS FUN HARG HANDLERS) This means that one of the functions `symbol-value', `default-value', `symbol-value-in-buffer', or `symbol-value-in-console' was called on SYM. set-value (SYM ARGS FUN HARG HANDLERS) This means that one of the functions `set' or `set-default' was called on SYM. bound-predicate (SYM ARGS FUN HARG HANDLERS) This means that one of the functions `boundp', `globally-boundp', or `default-boundp' was called on SYM. make-unbound (SYM ARGS FUN HARG HANDLERS) This means that the function `makunbound' was called on SYM. local-predicate (SYM ARGS FUN HARG HANDLERS) This means that the function `local-variable-p' was called on SYM. make-local (SYM ARGS FUN HARG HANDLERS) This means that one of the functions `make-local-variable', `make-variable-buffer-local', `kill-local-variable', or `kill-console-local-variable' was called on SYM. The meanings of the arguments are as follows: SYM is the symbol on which the function was called, and is always the first argument to the function. ARGS are the remaining arguments in the original call (i.e. all but the first). In the case of `set-value' in particular, the first element of ARGS is the value to which the variable is being set. In some cases, ARGS is sanitized from what was actually given. For example, whenever `nil' is passed to an argument and it means `current-buffer', the current buffer is substituted instead. FUN is a symbol indicating which function is being called. For many of the functions, you can determine the corresponding function of a different class using `symbol-function-corresponding-function'. HARG is the argument that was given in the call to `set-symbol-value-handler' for SYM and HANDLER-TYPE. HANDLERS is a structure containing the remaining handlers for the variable; to call one of them, use `chain-to-symbol-value-handler'. NOTE: You may *not* modify the list in ARGS, and if you want to keep it around after the handler function exits, you must make a copy using `copy-sequence'. (Same caveats for HANDLERS also.) */ static enum lisp_magic_handler decode_magic_handler_type (Lisp_Object symbol) { if (EQ (symbol, Qget_value)) return MAGIC_HANDLER_GET_VALUE; if (EQ (symbol, Qset_value)) return MAGIC_HANDLER_SET_VALUE; if (EQ (symbol, Qbound_predicate)) return MAGIC_HANDLER_BOUND_PREDICATE; if (EQ (symbol, Qmake_unbound)) return MAGIC_HANDLER_MAKE_UNBOUND; if (EQ (symbol, Qlocal_predicate)) return MAGIC_HANDLER_LOCAL_PREDICATE; if (EQ (symbol, Qmake_local)) return MAGIC_HANDLER_MAKE_LOCAL; invalid_constant ("Unrecognized symbol value handler type", symbol); RETURN_NOT_REACHED (MAGIC_HANDLER_MAX); } static enum lisp_magic_handler handler_type_from_function_symbol (Lisp_Object funsym, int abort_if_not_found) { if (EQ (funsym, Qsymbol_value) || EQ (funsym, Qdefault_value) || EQ (funsym, Qsymbol_value_in_buffer) || EQ (funsym, Qsymbol_value_in_console)) return MAGIC_HANDLER_GET_VALUE; if (EQ (funsym, Qset) || EQ (funsym, Qset_default)) return MAGIC_HANDLER_SET_VALUE; if (EQ (funsym, Qboundp) || EQ (funsym, Qglobally_boundp) || EQ (funsym, Qdefault_boundp)) return MAGIC_HANDLER_BOUND_PREDICATE; if (EQ (funsym, Qmakunbound)) return MAGIC_HANDLER_MAKE_UNBOUND; if (EQ (funsym, Qlocal_variable_p)) return MAGIC_HANDLER_LOCAL_PREDICATE; if (EQ (funsym, Qmake_variable_buffer_local) || EQ (funsym, Qmake_local_variable)) return MAGIC_HANDLER_MAKE_LOCAL; if (abort_if_not_found) ABORT (); invalid_argument ("Unrecognized symbol-value function", funsym); RETURN_NOT_REACHED (MAGIC_HANDLER_MAX); } static int would_be_magic_handled (Lisp_Object sym, Lisp_Object funsym) { /* does not take into account variable aliasing. */ Lisp_Object valcontents = XSYMBOL (sym)->value; enum lisp_magic_handler slot; if (!SYMBOL_VALUE_LISP_MAGIC_P (valcontents)) return 0; slot = handler_type_from_function_symbol (funsym, 1); if (slot != MAGIC_HANDLER_SET_VALUE && slot != MAGIC_HANDLER_MAKE_UNBOUND && slot != MAGIC_HANDLER_MAKE_LOCAL) /* #### temporary kludge because we haven't implemented lisp-magic variables completely */ return 0; return !NILP (XSYMBOL_VALUE_LISP_MAGIC (valcontents)->handler[slot]); } static Lisp_Object fetch_value_maybe_past_magic (Lisp_Object sym, Lisp_Object follow_past_lisp_magic) { Lisp_Object value = XSYMBOL (sym)->value; if (SYMBOL_VALUE_LISP_MAGIC_P (value) && (EQ (follow_past_lisp_magic, Qt) || (!NILP (follow_past_lisp_magic) && !would_be_magic_handled (sym, follow_past_lisp_magic)))) value = XSYMBOL_VALUE_LISP_MAGIC (value)->shadowed; return value; } static Lisp_Object * value_slot_past_magic (Lisp_Object sym) { Lisp_Object *store_pointer = &XSYMBOL (sym)->value; if (SYMBOL_VALUE_LISP_MAGIC_P (*store_pointer)) store_pointer = &XSYMBOL_VALUE_LISP_MAGIC (sym)->shadowed; return store_pointer; } static Lisp_Object maybe_call_magic_handler (Lisp_Object sym, Lisp_Object funsym, int nargs, ...) { va_list vargs; Lisp_Object args[20]; /* should be enough ... */ int i; enum lisp_magic_handler htype; Lisp_Object legerdemain; struct symbol_value_lisp_magic *bfwd; assert (nargs >= 0 && nargs < countof (args)); legerdemain = XSYMBOL (sym)->value; assert (SYMBOL_VALUE_LISP_MAGIC_P (legerdemain)); bfwd = XSYMBOL_VALUE_LISP_MAGIC (legerdemain); va_start (vargs, nargs); for (i = 0; i < nargs; i++) args[i] = va_arg (vargs, Lisp_Object); va_end (vargs); htype = handler_type_from_function_symbol (funsym, 1); if (NILP (bfwd->handler[htype])) return Qunbound; /* #### should be reusing the arglist, not always consing anew. Repeated handler invocations should not cause repeated consing. Doesn't matter for now, because this is just a quick implementation for obsolescence support. */ return call5 (bfwd->handler[htype], sym, Flist (nargs, args), funsym, bfwd->harg[htype], Qnil); } DEFUN ("dontusethis-set-symbol-value-handler", Fdontusethis_set_symbol_value_handler, 3, 5, 0, /* Don't you dare use this. If you do, suffer the wrath of Ben, who is likely to rename this function (or change the semantics of its arguments) without pity, thereby invalidating your code. */ (variable, handler_type, handler, harg, UNUSED (keep_existing ))) { Lisp_Object valcontents; struct symbol_value_lisp_magic *bfwd; enum lisp_magic_handler htype; int i; /* #### WARNING, only some handler types are implemented. See above. Actions of other types will ignore a handler if it's there. #### Also, `chain-to-symbol-value-handler' and `symbol-function-corresponding-function' are not implemented. */ CHECK_SYMBOL (variable); CHECK_SYMBOL (handler_type); htype = decode_magic_handler_type (handler_type); valcontents = XSYMBOL (variable)->value; if (!SYMBOL_VALUE_LISP_MAGIC_P (valcontents)) { bfwd = XSYMBOL_VALUE_LISP_MAGIC (ALLOC_NORMAL_LISP_OBJECT (symbol_value_lisp_magic)); bfwd->magic.type = SYMVAL_LISP_MAGIC; for (i = 0; i < MAGIC_HANDLER_MAX; i++) { bfwd->handler[i] = Qnil; bfwd->harg[i] = Qnil; } bfwd->shadowed = valcontents; XSYMBOL (variable)->value = wrap_symbol_value_magic (bfwd); } else bfwd = XSYMBOL_VALUE_LISP_MAGIC (valcontents); bfwd->handler[htype] = handler; bfwd->harg[htype] = harg; for (i = 0; i < MAGIC_HANDLER_MAX; i++) if (!NILP (bfwd->handler[i])) break; if (i == MAGIC_HANDLER_MAX) /* there are no remaining handlers, so remove the structure. */ XSYMBOL (variable)->value = bfwd->shadowed; return Qnil; } /* functions for working with variable aliases. */ /* Follow the chain of variable aliases for SYMBOL. Return the resulting symbol, whose value cell is guaranteed not to be a symbol-value-varalias. Also maybe follow past symbol-value-lisp-magic -> symbol-value-varalias. If FUNSYM is t, always follow in such a case. If FUNSYM is nil, never follow; stop right there. Otherwise FUNSYM should be a recognized symbol-value function symbol; this means, follow unless there is a special handler for the named function. OK, there is at least one reason why it's necessary for FOLLOW-PAST-LISP-MAGIC to be specified correctly: So that we can always be sure to catch cyclic variable aliasing. If we never follow past Lisp magic, then if the following is done: (defvaralias 'a 'b) add some magic behavior to a, but not a "get-value" handler (defvaralias 'b 'a) then an attempt to retrieve a's or b's value would cause infinite looping in `symbol-value'. We (of course) can't always follow past Lisp magic, because then we make any variable that is lisp-magic -> varalias behave as if the lisp-magic is not present at all. */ static Lisp_Object follow_varalias_pointers (Lisp_Object symbol, Lisp_Object follow_past_lisp_magic) { #define VARALIAS_INDIRECTION_SUSPICION_LENGTH 16 Lisp_Object tortoise, hare, val; int count; /* quick out just in case */ if (!SYMBOL_VALUE_MAGIC_P (XSYMBOL (symbol)->value)) return symbol; /* Compare implementation of indirect_function(). */ for (hare = tortoise = symbol, count = 0; val = fetch_value_maybe_past_magic (hare, follow_past_lisp_magic), SYMBOL_VALUE_VARALIAS_P (val); hare = symbol_value_varalias_aliasee (XSYMBOL_VALUE_VARALIAS (val)), count++) { if (count < VARALIAS_INDIRECTION_SUSPICION_LENGTH) continue; if (count & 1) tortoise = symbol_value_varalias_aliasee (XSYMBOL_VALUE_VARALIAS (fetch_value_maybe_past_magic (tortoise, follow_past_lisp_magic))); if (EQ (hare, tortoise)) return Fsignal (Qcyclic_variable_indirection, list1 (symbol)); } return hare; } /* Map FN over the chain of variable aliases for SYMBOL. If FN returns something other than Qzero for some link in the chain, return that immediately. Otherwise return Qzero (which is not a symbol). FN may be called twice on the same symbol if the varalias chain is cyclic. Prevent this by calling follow_varalias_pointers first for its side-effects. Signals a cyclic-variable-indirection error if a cyclic structure is detected. */ static Lisp_Object map_varalias_chain (Lisp_Object symbol, Lisp_Object follow_past_lisp_magic, Lisp_Object (*fn) (Lisp_Object arg)) { #define VARALIAS_INDIRECTION_SUSPICION_LENGTH 16 Lisp_Object tortoise, hare, val, res; int count; assert (fn); /* quick out just in case */ if (!SYMBOL_VALUE_MAGIC_P (XSYMBOL (symbol)->value)) { return (fn)(symbol); } /* Compare implementation of indirect_function(). */ for (hare = tortoise = symbol, count = 0; val = fetch_value_maybe_past_magic (hare, follow_past_lisp_magic), SYMBOL_VALUE_VARALIAS_P (val); hare = symbol_value_varalias_aliasee (XSYMBOL_VALUE_VARALIAS (val)), count++) { res = (fn) (hare); if (!EQ (Qzero, res)) { return res; } if (count < VARALIAS_INDIRECTION_SUSPICION_LENGTH) continue; if (count & 1) tortoise = symbol_value_varalias_aliasee (XSYMBOL_VALUE_VARALIAS (fetch_value_maybe_past_magic (tortoise, follow_past_lisp_magic))); if (EQ (hare, tortoise)) return Fsignal (Qcyclic_variable_indirection, list1 (symbol)); } return (fn) (hare); } /* OED entry, 2nd edition, IPA transliterated using Kirshenbaum: alias ('eIlI@s, '&lI@s), adv. and n. [...] B. n. (with pl. aliases.) 1. Another name, an assumed name. 1605 Camden Rem. (1614) 147 An Alias or double name cannot preiudice the honest. 1831 Edin. Rev. LIII. 364 He has been assuming various aliases. 1861 Macaulay Hist. Eng. V. 92 The monk who was sometimes called Harrison and sometimes went by the alias of Johnson. The alias is the fake name. Let's try to follow that usage in our documentation. */ DEFUN ("defvaralias", Fdefvaralias, 2, 3, 0, /* Define a variable as an alias for another variable. Thenceforth, any operations performed on VARIABLE will actually be performed on ALIASED. Both VARIABLE and ALIASED should be symbols. If ALIASED is nil and VARIABLE is an existing alias, remove that alias. ALIASED can itself be an alias, and the chain of variable aliases will be followed appropriately. If VARIABLE already has a value, this value will be shadowed until the alias is removed, at which point it will be restored. Currently VARIABLE cannot be a built-in variable, a variable that has a buffer-local value in any buffer, or the symbols nil or t. \(ALIASED, however, can be any type of variable.) Optional argument DOCSTRING is documentation for VARIABLE in its use as an alias for ALIASED. The XEmacs help code ignores this documentation, using the documentation of ALIASED instead, and the docstring, if specified, is not shadowed in the same way that the value is. Only use it if you know what you're doing. */ (variable, aliased, docstring)) { struct symbol_value_varalias *bfwd; Lisp_Object valcontents; CHECK_SYMBOL (variable); reject_constant_symbols (variable, Qunbound, 0, Qt); valcontents = XSYMBOL (variable)->value; if (NILP (aliased)) { if (SYMBOL_VALUE_VARALIAS_P (valcontents)) { XSYMBOL (variable)->value = symbol_value_varalias_shadowed (XSYMBOL_VALUE_VARALIAS (valcontents)); } return Qnil; } CHECK_SYMBOL (aliased); if (!NILP (docstring)) Fput (variable, Qvariable_documentation, docstring); if (SYMBOL_VALUE_VARALIAS_P (valcontents)) { /* transmogrify */ XSYMBOL_VALUE_VARALIAS (valcontents)->aliasee = aliased; return Qnil; } if (SYMBOL_VALUE_MAGIC_P (valcontents) && !UNBOUNDP (valcontents)) invalid_change ("Variable is magic and cannot be aliased", variable); reject_constant_symbols (variable, Qunbound, 0, Qt); bfwd = XSYMBOL_VALUE_VARALIAS (ALLOC_NORMAL_LISP_OBJECT (symbol_value_varalias)); bfwd->magic.type = SYMVAL_VARALIAS; bfwd->aliasee = aliased; bfwd->shadowed = valcontents; valcontents = wrap_symbol_value_magic (bfwd); XSYMBOL (variable)->value = valcontents; return Qnil; } DEFUN ("variable-alias", Fvariable_alias, 1, 2, 0, /* If VARIABLE is an alias of another variable, return that variable. VARIABLE should be a symbol. If VARIABLE is not an alias, return nil. Variable aliases are created with `defvaralias'. See also `indirect-variable'. */ (variable, follow_past_lisp_magic)) { Lisp_Object valcontents; CHECK_SYMBOL (variable); if (!NILP (follow_past_lisp_magic) && !EQ (follow_past_lisp_magic, Qt)) { CHECK_SYMBOL (follow_past_lisp_magic); handler_type_from_function_symbol (follow_past_lisp_magic, 0); } valcontents = fetch_value_maybe_past_magic (variable, follow_past_lisp_magic); if (SYMBOL_VALUE_VARALIAS_P (valcontents)) return symbol_value_varalias_aliasee (XSYMBOL_VALUE_VARALIAS (valcontents)); else return Qnil; } DEFUN ("indirect-variable", Findirect_variable, 1, 2, 0, /* Return the variable at the end of OBJECT's variable-alias chain. If OBJECT is a symbol, follow all variable aliases and return the final (non-aliased) symbol. Variable aliases are created with the function `defvaralias'. If OBJECT is not a symbol, just return it. Signal a cyclic-variable-indirection error if there is a loop in the variable chain of symbols. */ (object, follow_past_lisp_magic)) { if (!SYMBOLP (object)) return object; if (!NILP (follow_past_lisp_magic) && !EQ (follow_past_lisp_magic, Qt)) { CHECK_SYMBOL (follow_past_lisp_magic); handler_type_from_function_symbol (follow_past_lisp_magic, 0); } return follow_varalias_pointers (object, follow_past_lisp_magic); } DEFUN ("variable-binding-locus", Fvariable_binding_locus, 1, 1, 0, /* Return a value indicating where VARIABLE's current binding comes from. If the current binding is buffer-local, the value is the current buffer. If the current binding is global (the default), the value is nil. */ (variable)) { Lisp_Object valcontents; CHECK_SYMBOL (variable); variable = Findirect_variable (variable, Qnil); /* Make sure the current binding is actually swapped in. */ find_symbol_value (variable); valcontents = XSYMBOL (variable)->value; if (SYMBOL_VALUE_MAGIC_P (valcontents) && ((XSYMBOL_VALUE_MAGIC_TYPE (valcontents) == SYMVAL_BUFFER_LOCAL) || (XSYMBOL_VALUE_MAGIC_TYPE (valcontents) == SYMVAL_SOME_BUFFER_LOCAL)) && (!NILP (Flocal_variable_p (variable, Fcurrent_buffer (), Qnil)))) return Fcurrent_buffer (); else return Qnil; } /************************************************************************/ /* initialization */ /************************************************************************/ /* A dumped XEmacs image has a lot more than 1511 symbols. Last estimate was that there were actually around 6300. So let's try making this bigger and see if we get better hashing behavior. */ #define OBARRAY_SIZE 16411 #ifndef Qzero Lisp_Object Qzero; #endif #ifndef Qnull_pointer Lisp_Object Qnull_pointer; #endif #ifndef NEW_GC /* some losing systems can't have static vars at function scope... */ static const struct symbol_value_magic guts_of_unbound_marker = { /* struct symbol_value_magic */ { /* struct old_lcrecord_header */ { /* struct lrecord_header */ lrecord_type_symbol_value_forward, /* lrecord_type_index */ 1, /* mark bit */ 1, /* c_readonly bit */ 1, /* lisp_readonly bit */ }, 0, /* next */ }, 0, /* value */ SYMVAL_UNBOUND_MARKER }; #endif /* not NEW_GC */ static void reinit_symbol_objects_early (void) { OBJECT_HAS_METHOD (symbol, getprop); OBJECT_HAS_METHOD (symbol, putprop); OBJECT_HAS_METHOD (symbol, remprop); OBJECT_HAS_METHOD (symbol, print_preprocess); OBJECT_HAS_NAMED_METHOD (symbol, plist, Fsymbol_plist); OBJECT_HAS_NAMED_METHOD (symbol, setplist, Fsetplist); } void init_symbols_once_early (void) { INIT_LISP_OBJECT (symbol); INIT_LISP_OBJECT (symbol_value_forward); INIT_LISP_OBJECT (symbol_value_buffer_local); INIT_LISP_OBJECT (symbol_value_lisp_magic); INIT_LISP_OBJECT (symbol_value_varalias); reinit_symbol_objects_early (); /* Bootstrapping problem: Qnil isn't set when make_string_nocopy is called the first time. */ Qnil = Fmake_symbol (make_string_nocopy ((const Ibyte *) "nil", 3)); XSTRING_PLIST (XSYMBOL (Qnil)->name) = Qnil; XSYMBOL (Qnil)->value = Qnil; /* Nihil ex nihilo */ XSYMBOL (Qnil)->plist = Qnil; XSYMBOL (Qnil)->u.v.package_count = 1; XSYMBOL (Qnil)->u.v.first_package_id = 1; Vobarray = make_vector (OBARRAY_SIZE, Qzero); initial_obarray = Vobarray; staticpro (&initial_obarray); /* Intern nil in the obarray */ { unsigned int hash = hash_string (XSTRING_DATA (XSYMBOL (Qnil)->name), 3); XVECTOR_DATA (Vobarray)[hash % OBARRAY_SIZE] = Qnil; } { /* Required to get around a GCC syntax error on certain architectures */ #ifdef NEW_GC struct symbol_value_magic *tem = (struct symbol_value_magic *) mc_alloc (sizeof (struct symbol_value_magic)); MARK_LRECORD_AS_LISP_READONLY (tem); MARK_LRECORD_AS_NOT_FREE (tem); tem->header.type = lrecord_type_symbol_value_forward; mcpro (wrap_pointer_1 (tem)); tem->value = 0; tem->type = SYMVAL_UNBOUND_MARKER; #ifdef ALLOC_TYPE_STATS inc_lrecord_stats (sizeof (struct symbol_value_magic), (const struct lrecord_header *) tem); #endif /* ALLOC_TYPE_STATS */ #else /* not NEW_GC */ const struct symbol_value_magic *tem = &guts_of_unbound_marker; #endif /* not NEW_GC */ Qunbound = wrap_symbol_value_magic (tem); } XSYMBOL (Qnil)->function = Qunbound; DEFSYMBOL (Qt); XSYMBOL (Qt)->value = Qt; /* Veritas aeterna */ Vquit_flag = Qnil; dump_add_root_lisp_object (&Qnil); dump_add_root_lisp_object (&Qunbound); dump_add_root_lisp_object (&Vquit_flag); } void reinit_symbols_early (void) { reinit_symbol_objects_early (); } static void defsymbol_massage_name_1 (Lisp_Object *location, const Ascbyte *name, int dump_p, int multiword_predicate_p) { char temp[500]; int len = strlen (name) - 1; int i; if (multiword_predicate_p) assert (len + 1 < (int) sizeof (temp)); else assert (len < (int) sizeof (temp)); strcpy (temp, name + 1); /* Remove initial Q */ if (multiword_predicate_p) { strcpy (temp + len - 1, "_p"); len++; } for (i = 0; i < len; i++) if (temp[i] == '_') temp[i] = '-'; *location = Fintern (make_string ((const Ibyte *) temp, len), Qnil); if (dump_p) staticpro_1 (location, name); else staticpro_nodump_1 (location, name); } void defsymbol_massage_name_nodump (Lisp_Object *location, const Ascbyte *name) { defsymbol_massage_name_1 (location, name, 0, 0); } void defsymbol_massage_name (Lisp_Object *location, const Ascbyte *name) { defsymbol_massage_name_1 (location, name, 1, 0); } void defsymbol_massage_multiword_predicate_nodump (Lisp_Object *location, const Ascbyte *name) { defsymbol_massage_name_1 (location, name, 0, 1); } void defsymbol_massage_multiword_predicate (Lisp_Object *location, const Ascbyte *name) { defsymbol_massage_name_1 (location, name, 1, 1); } void defsymbol_nodump (Lisp_Object *location, const Ascbyte *name) { *location = Fintern (make_string_nocopy ((const Ibyte *) name, strlen (name)), Qnil); staticpro_nodump_1 (location, name); } void defsymbol (Lisp_Object *location, const Ascbyte *name) { *location = Fintern (make_string_nocopy ((const Ibyte *) name, strlen (name)), Qnil); staticpro_1 (location, name); } void defkeyword (Lisp_Object *location, const Ascbyte *name) { defsymbol (location, name); Fset (*location, *location); } void defkeyword_massage_name (Lisp_Object *location, const Ascbyte *name) { char temp[500]; int len = strlen (name); assert (len < (int) sizeof (temp)); strcpy (temp, name); temp[1] = ':'; /* it's an underscore in the C variable */ defsymbol_massage_name (location, temp); Fset (*location, *location); } #ifdef DEBUG_XEMACS /* Check that nobody spazzed writing a builtin (non-module) DEFUN. */ static void check_sane_subr (Lisp_Subr *subr, Lisp_Object sym) { if (!initialized) { assert (subr->min_args >= 0); assert (subr->min_args <= SUBR_MAX_ARGS); if (subr->max_args != MANY && subr->max_args != UNEVALLED) { /* Need to fix lisp.h and eval.c if SUBR_MAX_ARGS too small */ assert (subr->max_args <= SUBR_MAX_ARGS); assert (subr->min_args <= subr->max_args); } assert (UNBOUNDP (XSYMBOL (sym)->function)); } } #else #define check_sane_subr(subr, sym) /* nothing */ #endif #ifdef HAVE_SHLIB #ifndef NEW_GC /* * If we are not in a pure undumped Emacs, we need to make a duplicate of * the subr. This is because the only time this function will be called * in a running Emacs is when a dynamically loaded module is adding a * subr, and we need to make sure that the subr is in allocated, Lisp- * accessible memory. The address assigned to the static subr struct * in the shared object will be a trampoline address, so we need to create * a copy here to ensure that a real address is used. * * Once we have copied everything across, we re-use the original static * structure to store a pointer to the newly allocated one. This will be * used in emodules.c by emodules_doc_subr() to find a pointer to the * allocated object so that we can set its doc string properly. * * NOTE: We don't actually use the DOC pointer here any more, but we did * in an earlier implementation of module support. There is no harm in * setting it here in case we ever need it in future implementations. * subr->doc will point to the new subr structure that was allocated. * Code can then get this value from the static subr structure and use * it if required. * * FIXME: Should newsubr be staticpro()'ed? I don't think so but I need * a guru to check. */ #define check_module_subr(subr) \ do { \ if (initialized) { \ Lisp_Subr *newsubr; \ Lisp_Object f; \ \ if (subr->min_args < 0) \ signal_ferror (Qdll_error, "%s min_args (%hd) too small", \ subr_name (subr), subr->min_args); \ if (subr->min_args > SUBR_MAX_ARGS) \ signal_ferror (Qdll_error, "%s min_args (%hd) too big (max = %d)", \ subr_name (subr), subr->min_args, SUBR_MAX_ARGS); \ \ if (subr->max_args != MANY && \ subr->max_args != UNEVALLED) \ { \ /* Need to fix lisp.h and eval.c if SUBR_MAX_ARGS too small */ \ if (subr->max_args > SUBR_MAX_ARGS) \ signal_ferror (Qdll_error, "%s max_args (%hd) too big (max = %d)", \ subr_name (subr), subr->max_args, SUBR_MAX_ARGS); \ if (subr->min_args > subr->max_args) \ signal_ferror (Qdll_error, "%s min_args (%hd) > max_args (%hd)", \ subr_name (subr), subr->min_args, subr->max_args); \ } \ \ f = XSYMBOL (sym)->function; \ if (!UNBOUNDP (f) && (!CONSP (f) || !EQ (XCAR (f), Qautoload))) \ signal_ferror (Qdll_error, "Attempt to redefine %s", subr_name (subr)); \ \ newsubr = xnew (Lisp_Subr); \ memcpy (newsubr, subr, sizeof (Lisp_Subr)); \ subr->doc = (const CIbyte *)newsubr; \ subr = newsubr; \ } \ } while (0) #else /* NEW_GC */ /* * If we have the new allocator enabled, we do not need to make a * duplicate of the subr. The new allocator already does allocate all * subrs in Lisp-accessible memory rather than have it in the static * subr struct. * * NOTE: The DOC pointer is not set here as described above. */ #define check_module_subr(subr) \ do { \ if (initialized) { \ Lisp_Object f; \ \ if (subr->min_args < 0) \ signal_ferror (Qdll_error, "%s min_args (%hd) too small", \ subr_name (subr), subr->min_args); \ if (subr->min_args > SUBR_MAX_ARGS) \ signal_ferror (Qdll_error, "%s min_args (%hd) too big (max = %d)", \ subr_name (subr), subr->min_args, SUBR_MAX_ARGS); \ \ if (subr->max_args != MANY && \ subr->max_args != UNEVALLED) \ { \ /* Need to fix lisp.h and eval.c if SUBR_MAX_ARGS too small */ \ if (subr->max_args > SUBR_MAX_ARGS) \ signal_ferror (Qdll_error, "%s max_args (%hd) too big (max = %d)", \ subr_name (subr), subr->max_args, SUBR_MAX_ARGS); \ if (subr->min_args > subr->max_args) \ signal_ferror (Qdll_error, "%s min_args (%hd) > max_args (%hd)", \ subr_name (subr), subr->min_args, subr->max_args); \ } \ \ f = XSYMBOL (sym)->function; \ if (!UNBOUNDP (f) && (!CONSP (f) || !EQ (XCAR (f), Qautoload))) \ signal_ferror (Qdll_error, "Attempt to redefine %s", subr_name (subr)); \ } \ } while (0) #endif /* NEW_GC */ #else /* ! HAVE_SHLIB */ #define check_module_subr(subr) #endif void defsubr (Lisp_Subr *subr) { Lisp_Object sym = intern (subr_name (subr)); Lisp_Object fun; check_sane_subr (subr, sym); check_module_subr (subr); fun = wrap_subr (subr); XSYMBOL (sym)->function = fun; #ifdef HAVE_SHLIB /* If it is declared in a module, update the load history */ if (initialized) LOADHIST_ATTACH (sym); #endif } /* Define a lisp macro using a Lisp_Subr. */ void defsubr_macro (Lisp_Subr *subr) { Lisp_Object sym = intern (subr_name (subr)); Lisp_Object fun; check_sane_subr (subr, sym); check_module_subr (subr); fun = wrap_subr (subr); XSYMBOL (sym)->function = Fcons (Qmacro, fun); #ifdef HAVE_SHLIB /* If it is declared in a module, update the load history */ if (initialized) LOADHIST_ATTACH (sym); #endif } static void deferror_1 (Lisp_Object *symbol, const Ascbyte *name, const Ascbyte *messuhhj, Lisp_Object inherits_from, int massage_p) { Lisp_Object conds; if (massage_p) defsymbol_massage_name (symbol, name); else defsymbol (symbol, name); assert (SYMBOLP (inherits_from)); conds = Fget (inherits_from, Qerror_conditions, Qnil); Fput (*symbol, Qerror_conditions, Fcons (*symbol, conds)); /* NOT build_msg_string (). This function is called at load time and the string needs to get translated at run time. (This happens in the function (display-error) in cmdloop.el.) */ Fput (*symbol, Qerror_message, build_defer_string (messuhhj)); } void deferror (Lisp_Object *symbol, const Ascbyte *name, const Ascbyte *messuhhj, Lisp_Object inherits_from) { deferror_1 (symbol, name, messuhhj, inherits_from, 0); } void deferror_massage_name (Lisp_Object *symbol, const Ascbyte *name, const Ascbyte *messuhhj, Lisp_Object inherits_from) { deferror_1 (symbol, name, messuhhj, inherits_from, 1); } void deferror_massage_name_and_message (Lisp_Object *symbol, const Ascbyte *name, Lisp_Object inherits_from) { char temp[500]; int i; int len = strlen (name) - 1; assert (len < (int) sizeof (temp)); strcpy (temp, name + 1); /* Remove initial Q */ temp[0] = toupper (temp[0]); for (i = 0; i < len; i++) if (temp[i] == '_') temp[i] = ' '; deferror_1 (symbol, name, temp, inherits_from, 1); } void syms_of_symbols (void) { DEFSYMBOL (Qvariable_documentation); DEFSYMBOL (Qvariable_domain); /* I18N3 */ DEFSYMBOL (Qad_advice_info); DEFSYMBOL (Qad_activate); DEFSYMBOL (Qget_value); DEFSYMBOL (Qset_value); DEFSYMBOL (Qbound_predicate); DEFSYMBOL (Qmake_unbound); DEFSYMBOL (Qlocal_predicate); DEFSYMBOL (Qmake_local); DEFSYMBOL (Qboundp); DEFSYMBOL (Qglobally_boundp); DEFSYMBOL (Qmakunbound); DEFSYMBOL (Qsymbol_value); DEFSYMBOL (Qset); DEFSYMBOL (Qsetq_default); DEFSYMBOL (Qdefault_boundp); DEFSYMBOL (Qdefault_value); DEFSYMBOL (Qset_default); DEFSYMBOL (Qmake_variable_buffer_local); DEFSYMBOL (Qmake_local_variable); DEFSYMBOL (Qkill_local_variable); DEFSYMBOL (Qkill_console_local_variable); DEFSYMBOL (Qsymbol_value_in_buffer); DEFSYMBOL (Qsymbol_value_in_console); DEFSYMBOL (Qlocal_variable_p); DEFSYMBOL (Qconst_integer); DEFSYMBOL (Qconst_boolean); DEFSYMBOL (Qconst_object); DEFSYMBOL (Qconst_specifier); DEFSYMBOL (Qdefault_buffer); DEFSYMBOL (Qcurrent_buffer); DEFSYMBOL (Qconst_current_buffer); DEFSYMBOL (Qdefault_console); DEFSYMBOL (Qselected_console); DEFSYMBOL (Qconst_selected_console); DEFSUBR (Fintern); DEFSUBR (Fintern_soft); DEFSUBR (Funintern); DEFSUBR (Fmapatoms); DEFSUBR (Fapropos_internal); DEFSUBR (Fsymbol_function); DEFSUBR (Fsymbol_plist); DEFSUBR (Fsymbol_name); DEFSUBR (Fmakunbound); DEFSUBR (Ffmakunbound); DEFSUBR (Fboundp); DEFSUBR (Fglobally_boundp); DEFSUBR (Ffboundp); DEFSUBR (Ffset); DEFSUBR (Fdefine_function); Ffset (intern ("defalias"), intern ("define-function")); DEFSUBR (Fsubr_name); DEFSUBR (Fspecial_operator_p); DEFSUBR (Fsetplist); DEFSUBR (Fsymbol_value_in_buffer); DEFSUBR (Fsymbol_value_in_console); DEFSUBR (Fbuilt_in_variable_type); DEFSUBR (Fsymbol_value); DEFSUBR (Fset); DEFSUBR (Fdefault_boundp); DEFSUBR (Fdefault_value); DEFSUBR (Fset_default); DEFSUBR (Fsetq_default); DEFSUBR (Fmake_variable_buffer_local); DEFSUBR (Fmake_local_variable); DEFSUBR (Fkill_local_variable); DEFSUBR (Fkill_console_local_variable); DEFSUBR (Flocal_variable_p); DEFSUBR (Fcustom_variable_p); DEFSUBR (Fuser_variable_p); DEFSUBR (Fdefvaralias); DEFSUBR (Fvariable_alias); DEFSUBR (Findirect_variable); DEFSUBR (Fvariable_binding_locus); DEFSUBR (Fdontusethis_set_symbol_value_handler); } /* Create and initialize a Lisp variable whose value is forwarded to C data */ void defvar_magic (const Ascbyte *symbol_name, const struct symbol_value_forward *magic) { Lisp_Object sym; #ifdef HAVE_SHLIB /* * As with defsubr(), this will only be called in a dumped Emacs when * we are adding variables from a dynamically loaded module. That means * we can't use purespace. Take that into account. */ if (initialized) { sym = Fintern (build_ascstring (symbol_name), Qnil); LOADHIST_ATTACH (sym); } else #endif sym = Fintern (make_string_nocopy ((const Ibyte *) symbol_name, strlen (symbol_name)), Qnil); XSYMBOL (sym)->value = wrap_pointer_1 (magic); } void vars_of_symbols (void) { DEFVAR_LISP ("obarray", &Vobarray /* Symbol table for use by `intern' and `read'. It is a vector whose length ought to be prime for best results. The vector's contents don't make sense if examined from Lisp programs; to find all the symbols in an obarray, use `mapatoms'. */ ); /* obarray has been initialized long before */ }