#include "rangetab.h"
Lisp_Object Qspecifierp;
-Lisp_Object Qprepend, Qappend, Qremove_tag_set_prepend, Qremove_tag_set_append;
-Lisp_Object Qremove_locale, Qremove_locale_type, Qremove_all;
-Lisp_Object Qfallback;
-
-/* Qinteger, Qboolean, Qgeneric defined in general.c. */
-Lisp_Object Qnatnum;
+Lisp_Object Qremove_tag_set_prepend, Qremove_tag_set_append;
+Lisp_Object Qremove_locale, Qremove_locale_type;
Lisp_Object Qconsole_type, Qdevice_class;
+Lisp_Object Qspecifier_syntax_error;
+Lisp_Object Qspecifier_argument_error;
+Lisp_Object Qspecifier_change_error;
+
static Lisp_Object Vuser_defined_tags;
typedef struct specifier_type_entry specifier_type_entry;
static const struct lrecord_description ste_description_1[] = {
{ XD_LISP_OBJECT, offsetof (specifier_type_entry, symbol) },
- { XD_STRUCT_PTR, offsetof (specifier_type_entry, meths), 1, &specifier_methods_description },
+ { XD_STRUCT_PTR, offsetof (specifier_type_entry, meths), 1,
+ &specifier_methods_description },
{ XD_END }
};
internal_hash (s->buffer_specs, depth + 1));
}
+inline static size_t
+aligned_sizeof_specifier (size_t specifier_type_specific_size)
+{
+ return ALIGN_SIZE (offsetof (Lisp_Specifier, data)
+ + specifier_type_specific_size,
+ ALIGNOF (max_align_t));
+}
+
static size_t
sizeof_specifier (const void *header)
{
- if (GHOST_SPECIFIER_P ((Lisp_Specifier *) header))
- return offsetof (Lisp_Specifier, data);
- else
- {
- const Lisp_Specifier *p = (const Lisp_Specifier *) header;
- return offsetof (Lisp_Specifier, data) + p->methods->extra_data_size;
- }
+ const Lisp_Specifier *p = (const Lisp_Specifier *) header;
+ return aligned_sizeof_specifier (GHOST_SPECIFIER_P (p)
+ ? 0
+ : p->methods->extra_data_size);
}
static const struct lrecord_description specifier_methods_description_1[] = {
};
static const struct lrecord_description specifier_description[] = {
- { XD_STRUCT_PTR, offsetof (Lisp_Specifier, methods), 1, &specifier_methods_description },
+ { XD_STRUCT_PTR, offsetof (Lisp_Specifier, methods), 1,
+ &specifier_methods_description },
{ XD_LO_LINK, offsetof (Lisp_Specifier, next_specifier) },
{ XD_LISP_OBJECT, offsetof (Lisp_Specifier, global_specs) },
{ XD_LISP_OBJECT, offsetof (Lisp_Specifier, device_specs) },
{ XD_LISP_OBJECT, offsetof (Lisp_Specifier, frame_specs) },
{ XD_LISP_OBJECT, offsetof (Lisp_Specifier, window_specs) },
{ XD_LISP_OBJECT, offsetof (Lisp_Specifier, buffer_specs) },
- { XD_STRUCT_PTR, offsetof (Lisp_Specifier, caching), 1, &specifier_caching_description },
+ { XD_STRUCT_PTR, offsetof (Lisp_Specifier, caching), 1,
+ &specifier_caching_description },
{ XD_LISP_OBJECT, offsetof (Lisp_Specifier, magic_parent) },
{ XD_LISP_OBJECT, offsetof (Lisp_Specifier, fallback) },
{ XD_SPECIFIER_END }
return Dynarr_at (the_specifier_type_entry_dynarr, i).meths;
}
- maybe_signal_simple_error ("Invalid specifier type", type,
- Qspecifier, errb);
+ maybe_signal_type_error (Qspecifier_argument_error, "Invalid specifier type",
+ type, Qspecifier, errb);
return 0;
}
DEFUN ("valid-specifier-type-p", Fvalid_specifier_type_p, 1, 1, 0, /*
Given a SPECIFIER-TYPE, return non-nil if it is valid.
-Valid types are 'generic, 'integer, boolean, 'color, 'font, 'image,
+Valid types are 'generic, 'integer, 'boolean, 'color, 'font, 'image,
'face-boolean, and 'toolbar.
*/
(specifier_type))
{
Lisp_Object specifier;
Lisp_Specifier *sp = (Lisp_Specifier *)
- alloc_lcrecord (offsetof (Lisp_Specifier, data) + data_size,
- &lrecord_specifier);
+ alloc_lcrecord (aligned_sizeof_specifier (data_size), &lrecord_specifier);
sp->methods = spec_meths;
sp->global_specs = Qnil;
A specifier is an object that can be used to keep track of a property
whose value can be per-buffer, per-window, per-frame, or per-device,
-and can further be restricted to a particular console-type or device-class.
-Specifiers are used, for example, for the various built-in properties of a
-face; this allows a face to have different values in different frames,
-buffers, etc. For more information, see `specifier-instance',
+and can further be restricted to a particular console-type or
+device-class. Specifiers are used, for example, for the various
+built-in properties of a face; this allows a face to have different
+values in different frames, buffers, etc.
+
+When speaking of the value of a specifier, it is important to
+distinguish between the *setting* of a specifier, called an
+\"instantiator\", and the *actual value*, called an \"instance\". You
+put various possible instantiators (i.e. settings) into a specifier
+and associate them with particular locales (buffer, window, frame,
+device, global), and then the instance (i.e. actual value) is
+retrieved in a specific domain (window, frame, device) by looking
+through the possible instantiators (i.e. settings). This process is
+called \"instantiation\".
+
+To put settings into a specifier, use `set-specifier', or the
+lower-level functions `add-spec-to-specifier' and
+`add-spec-list-to-specifier'. You can also temporarily bind a setting
+to a specifier using `let-specifier'. To retrieve settings, use
+`specifier-specs', or its lower-level counterpart
+`specifier-spec-list'. To determine the actual value, use
+`specifier-instance'.
+
+For more information, see `set-specifier', `specifier-instance',
`specifier-specs', and `add-spec-to-specifier'; or, for a detailed
-description of specifiers, including how they are instantiated over a
-particular domain (i.e. how their value in that domain is determined),
-see the chapter on specifiers in the XEmacs Lisp Reference Manual.
+description of specifiers, including how exactly the instantiation
+process works, see the chapter on specifiers in the XEmacs Lisp
+Reference Manual.
TYPE specifies the particular type of specifier, and should be one of
-the symbols 'generic, 'integer, 'boolean, 'color, 'font, 'image,
-'face-boolean, or 'toolbar.
-
-For more information on particular types of specifiers, see the functions
-`generic-specifier-p', `integer-specifier-p', `boolean-specifier-p',
-`color-specifier-p', `font-specifier-p', `image-specifier-p',
-`face-boolean-specifier-p', and `toolbar-specifier-p'.
+the symbols 'generic, 'integer, 'natnum, 'boolean, 'color, 'font,
+'image, 'face-boolean, 'display-table, 'gutter, 'gutter-size,
+'gutter-visible or 'toolbar.
+
+For more information on particular types of specifiers, see the
+functions `make-generic-specifier', `make-integer-specifier',
+`make-natnum-specifier', `make-boolean-specifier',
+`make-color-specifier', `make-font-specifier', `make-image-specifier',
+`make-face-boolean-specifier', `make-gutter-size-specifier',
+`make-gutter-visible-specifier', `default-toolbar', `default-gutter',
+and `current-display-table'.
*/
(type))
{
/* This function can GC */
- struct specifier_methods *meths = decode_specifier_type (type,
- ERROR_ME);
+ struct specifier_methods *meths = decode_specifier_type (type, ERROR_ME);
return make_specifier (meths);
}
DEFUN ("valid-specifier-domain-p", Fvalid_specifier_domain_p, 1, 1, 0, /*
Return t if DOMAIN is a valid specifier domain.
A domain is used to instance a specifier (i.e. determine the specifier's
-value in that domain). Valid domains are windows, frames, and devices.
-\(nil is not valid.)
+value in that domain). Valid domains are image instances, windows, frames,
+and devices. \(nil is not valid.) image instances are pseudo-domains since
+instantiation will actually occur in the window the image instance itself is
+instantiated in.
*/
(domain))
{
/* This cannot GC. */
return ((DEVICEP (domain) && DEVICE_LIVE_P (XDEVICE (domain))) ||
(FRAMEP (domain) && FRAME_LIVE_P (XFRAME (domain))) ||
- (WINDOWP (domain) && WINDOW_LIVE_P (XWINDOW (domain))))
+ (WINDOWP (domain) && WINDOW_LIVE_P (XWINDOW (domain))) ||
+ /* #### get image instances out of domains! */
+ IMAGE_INSTANCEP (domain))
? Qt : Qnil;
}
-DEFUN ("valid-specifier-locale-type-p", Fvalid_specifier_locale_type_p, 1, 1, 0, /*
+DEFUN ("valid-specifier-locale-type-p", Fvalid_specifier_locale_type_p, 1, 1, 0,
+ /*
Given a specifier LOCALE-TYPE, return non-nil if it is valid.
Valid locale types are 'global, 'device, 'frame, 'window, and 'buffer.
\(Note, however, that in functions that accept either a locale or a locale
!NILP (Fvalid_specifier_locale_p (locale)) ||
!NILP (Fvalid_specifier_locale_type_p (locale)))
return;
- signal_simple_error ("Invalid specifier locale or locale type", locale);
+ signal_type_error (Qspecifier_argument_error,
+ "Invalid specifier locale or locale type", locale);
}
DEFUN ("specifier-locale-type-from-locale", Fspecifier_locale_type_from_locale,
{
/* This cannot GC. */
if (NILP (Fvalid_specifier_locale_p (locale)))
- signal_simple_error ("Invalid specifier locale", locale);
+ signal_type_error (Qspecifier_argument_error, "Invalid specifier locale",
+ locale);
if (DEVICEP (locale)) return Qdevice;
if (FRAMEP (locale)) return Qframe;
if (WINDOWP (locale)) return Qwindow;
else if (!NILP (Fvalid_specifier_locale_p (locale)))
return locale;
else
- signal_simple_error ("Invalid specifier locale", locale);
+ signal_type_error (Qspecifier_argument_error, "Invalid specifier locale",
+ locale);
return Qnil;
}
if (EQ (locale_type, Qwindow)) return LOCALE_WINDOW;
if (EQ (locale_type, Qbuffer)) return LOCALE_BUFFER;
- signal_simple_error ("Invalid specifier locale type", locale_type);
+ signal_type_error (Qspecifier_argument_error, "Invalid specifier locale type",
+ locale_type);
return LOCALE_GLOBAL; /* not reached */
}
}
else if (CONSP (locale))
{
- Lisp_Object elt;
EXTERNAL_LIST_LOOP_2 (elt, locale)
check_valid_locale_or_locale_type (elt);
return locale;
check_valid_domain (Lisp_Object domain)
{
if (NILP (Fvalid_specifier_domain_p (domain)))
- signal_simple_error ("Invalid specifier domain", domain);
+ signal_type_error (Qspecifier_argument_error, "Invalid specifier domain",
+ domain);
}
-static Lisp_Object
+Lisp_Object
decode_domain (Lisp_Object domain)
{
if (NILP (domain))
if (!NILP (Fvalid_specifier_tag_p (tag_set)))
return list1 (tag_set);
if (NILP (Fvalid_specifier_tag_set_p (tag_set)))
- signal_simple_error ("Invalid specifier tag-set", tag_set);
+ signal_type_error (Qspecifier_argument_error, "Invalid specifier tag-set",
+ tag_set);
return tag_set;
}
(tag_set))
{
if (NILP (Fvalid_specifier_tag_set_p (tag_set)))
- signal_simple_error ("Invalid tag set", tag_set);
+ signal_type_error (Qspecifier_argument_error, "Invalid tag set", tag_set);
return canonicalize_tag_set (tag_set);
}
return 1;
}
-DEFUN ("device-matches-specifier-tag-set-p", Fdevice_matches_specifier_tag_set_p, 2, 2, 0, /*
+DEFUN ("device-matches-specifier-tag-set-p",
+ Fdevice_matches_specifier_tag_set_p, 2, 2, 0, /*
Return non-nil if DEVICE matches specifier tag set TAG-SET.
This means that DEVICE matches each tag in the tag set. (Every
tag recognized by XEmacs has a predicate associated with it that
CHECK_LIVE_DEVICE (device);
if (NILP (Fvalid_specifier_tag_set_p (tag_set)))
- signal_simple_error ("Invalid tag set", tag_set);
+ signal_type_error (Qspecifier_argument_error, "Invalid tag set", tag_set);
return device_matches_specifier_tag_set_p (device, tag_set) ? Qt : Qnil;
}
CHECK_SYMBOL (tag);
if (valid_device_class_p (tag) ||
valid_console_type_p (tag))
- signal_simple_error ("Cannot redefine built-in specifier tags", tag);
+ signal_type_error (Qspecifier_change_error,
+ "Cannot redefine built-in specifier tags", tag);
/* Try to prevent common instantiators and locales from being
redefined, to reduce ambiguity */
if (NILP (tag) || EQ (tag, Qt) || EQ (tag, Qall) || EQ (tag, Qglobal))
- signal_simple_error ("Cannot define nil, t, 'all, or 'global",
- tag);
+ signal_type_error (Qspecifier_change_error, "Cannot define nil, t, 'all, or 'global",
+ tag);
assoc = assq_no_quit (tag, Vuser_defined_tags);
if (NILP (assoc))
{
}
}
-DEFUN ("device-matching-specifier-tag-list", Fdevice_matching_specifier_tag_list,
+DEFUN ("device-matching-specifier-tag-list",
+ Fdevice_matching_specifier_tag_list,
0, 1, 0, /*
Return a list of all specifier tags matching DEVICE.
DEVICE defaults to the selected device if omitted.
CHECK_SYMBOL (tag);
if (NILP (Fvalid_specifier_tag_p (tag)))
- signal_simple_error ("Invalid specifier tag", tag);
+ signal_type_error (Qspecifier_argument_error, "Invalid specifier tag",
+ tag);
/* Make up some predicates for the built-in types */
if (!CONSP (rest))
{
- maybe_signal_simple_error ("Invalid instantiator list", inst_list,
+ maybe_signal_type_error (Qspecifier_syntax_error,
+ "Invalid instantiator list", inst_list,
Qspecifier, errb);
return Qnil;
}
if (!CONSP (inst_pair = XCAR (rest)))
{
- maybe_signal_simple_error ("Invalid instantiator pair", inst_pair,
+ maybe_signal_type_error (Qspecifier_syntax_error,
+ "Invalid instantiator pair", inst_pair,
Qspecifier, errb);
return Qnil;
}
if (NILP (Fvalid_specifier_tag_set_p (tag_set = XCAR (inst_pair))))
{
- maybe_signal_simple_error ("Invalid specifier tag", tag_set,
+ maybe_signal_type_error (Qspecifier_syntax_error,
+ "Invalid specifier tag", tag_set,
Qspecifier, errb);
return Qnil;
}
Lisp_Object spec, locale;
if (!CONSP (rest) || !CONSP (spec = XCAR (rest)))
{
- maybe_signal_simple_error ("Invalid specification list", spec_list,
+ maybe_signal_type_error (Qspecifier_syntax_error,
+ "Invalid specification list", spec_list,
Qspecifier, errb);
return Qnil;
}
if (NILP (Fvalid_specifier_locale_p (locale = XCAR (spec))))
{
- maybe_signal_simple_error ("Invalid specifier locale", locale,
+ maybe_signal_type_error (Qspecifier_syntax_error,
+ "Invalid specifier locale", locale,
Qspecifier, errb);
return Qnil;
}
if (EQ (Qremove_all, how_to_add))
return SPEC_REMOVE_ALL;
- signal_simple_error ("Invalid `how-to-add' flag", how_to_add);
+ signal_type_error (Qspecifier_argument_error, "Invalid `how-to-add' flag",
+ how_to_add);
return SPEC_PREPEND; /* not reached */
}
{
if (NILP (Vunlock_ghost_specifiers)
&& GHOST_SPECIFIER_P (XSPECIFIER (spec)))
- signal_simple_error ("Attempt to modify read-only specifier",
+ signal_type_error (Qspecifier_change_error,
+ "Attempt to modify read-only specifier",
list1 (spec));
}
else if (add_meth == SPEC_APPEND)
tem = nconc2 (*orig_inst_list, list_to_build_up);
else
- abort ();
+ {
+ ABORT ();
+ tem = Qnil;
+ }
*orig_inst_list = tem;
}
DEFUN ("add-spec-list-to-specifier", Fadd_spec_list_to_specifier, 2, 3, 0, /*
-Add a spec-list (a list of specifications) to SPECIFIER.
-The format of a spec-list is
+Add SPEC-LIST (a list of specifications) to SPECIFIER.
+The format of SPEC-LIST is
((LOCALE (TAG-SET . INSTANTIATOR) ...) ...)
}
}
-DEFUN ("check-valid-specifier-matchspec", Fcheck_valid_specifier_matchspec, 2, 2, 0, /*
+DEFUN ("check-valid-specifier-matchspec", Fcheck_valid_specifier_matchspec, 2,
+ 2, 0, /*
Signal an error if MATCHSPEC is invalid for SPECIFIER-TYPE.
See `specifier-matching-instance' for a description of matchspecs.
*/
GCPRO2 (specifier, inst_list);
sp = XSPECIFIER (specifier);
- device = DFW_DEVICE (domain);
+ device = DOMAIN_DEVICE (domain);
if (no_quit)
/* The instantiate method is allowed to call eval. Since it
is quite common for this function to get called from somewhere in
redisplay we need to make sure that quits are ignored. Otherwise
- Fsignal will abort. */
+ Fsignal will ABORT. */
specbind (Qinhibit_quit, Qt);
LIST_LOOP (rest, inst_list)
Lisp_Object window = Qnil;
Lisp_Object frame = Qnil;
Lisp_Object device = Qnil;
- Lisp_Object tag = Qnil;
- struct device *d;
- Lisp_Specifier *sp;
-
- sp = XSPECIFIER (specifier);
+ Lisp_Object tag = Qnil; /* #### currently unused */
+ Lisp_Specifier *sp = XSPECIFIER (specifier);
/* Attempt to determine buffer, window, frame, and device from the
domain. */
- if (WINDOWP (domain))
+ /* #### get image instances out of domains! */
+ if (IMAGE_INSTANCEP (domain))
+ window = DOMAIN_WINDOW (domain);
+ else if (WINDOWP (domain))
window = domain;
else if (FRAMEP (domain))
frame = domain;
else if (DEVICEP (domain))
device = domain;
else
- /* #### dmoore - dammit, this should just signal an error or something
- shouldn't it?
- #### No. Errors are handled in Lisp primitives implementation.
+ /* dmoore writes: [dammit, this should just signal an error or something
+ shouldn't it?]
+
+ No. Errors are handled in Lisp primitives implementation.
Invalid domain is a design error here - kkm. */
- abort ();
+ ABORT ();
if (NILP (buffer) && !NILP (window))
- buffer = XWINDOW (window)->buffer;
+ buffer = WINDOW_BUFFER (XWINDOW (window));
if (NILP (frame) && !NILP (window))
frame = XWINDOW (window)->frame;
if (NILP (device))
/* frame had better exist; if device is undeterminable, something
really went wrong. */
- device = XFRAME (frame)->device;
+ device = FRAME_DEVICE (XFRAME (frame));
- /* device had better be determined by now; abort if not. */
- d = XDEVICE (device);
- tag = DEVICE_CLASS (d);
+ /* device had better be determined by now; ABORT if not. */
+ tag = DEVICE_CLASS (XDEVICE (device));
depth = make_int (1 + XINT (depth));
if (XINT (depth) > 20)
return UNBOUNDP (val) ? default_ : val;
}
-DEFUN ("specifier-matching-instance-from-inst-list", Fspecifier_matching_instance_from_inst_list,
+DEFUN ("specifier-matching-instance-from-inst-list",
+ Fspecifier_matching_instance_from_inst_list,
4, 5, 0, /*
Attempt to convert a particular inst-list into an instance.
This attempts to instantiate INST-LIST in the given DOMAIN
int struct_frame_offset,
void (*value_changed_in_frame)
(Lisp_Object specifier, struct frame *f,
- Lisp_Object oldval))
+ Lisp_Object oldval),
+ int always_recompute)
{
Lisp_Specifier *sp = XSPECIFIER (specifier);
assert (!GHOST_SPECIFIER_P (sp));
sp->caching->value_changed_in_window = value_changed_in_window;
sp->caching->offset_into_struct_frame = struct_frame_offset;
sp->caching->value_changed_in_frame = value_changed_in_frame;
+ sp->caching->always_recompute = always_recompute;
Vcached_specifiers = Fcons (specifier, Vcached_specifiers);
if (BODILY_SPECIFIER_P (sp))
GHOST_SPECIFIER(sp)->caching = sp->caching;
struct window *w)
{
Lisp_Object window;
- Lisp_Object newval, *location;
+ Lisp_Object newval, *location, oldval;
assert (!GHOST_SPECIFIER_P (XSPECIFIER (specifier)));
method. */
location = (Lisp_Object *)
((char *) w + XSPECIFIER (specifier)->caching->offset_into_struct_window);
- if (!EQ (newval, *location))
+ /* #### What's the point of this check, other than to optimize image
+ instance instantiation? Unless you specify a caching instantiate
+ method the instantiation that specifier_instance will do will
+ always create a new copy. Thus EQ will always fail. Unfortunately
+ calling equal is no good either as this doesn't take into account
+ things attached to the specifier - for instance strings on
+ extents. --andyp */
+ if (!EQ (newval, *location) || XSPECIFIER (specifier)->caching->always_recompute)
{
- Lisp_Object oldval = *location;
+ oldval = *location;
*location = newval;
(XSPECIFIER (specifier)->caching->value_changed_in_window)
(specifier, w, oldval);
struct frame *f)
{
Lisp_Object frame;
- Lisp_Object newval, *location;
+ Lisp_Object newval, *location, oldval;
assert (!GHOST_SPECIFIER_P (XSPECIFIER (specifier)));
method. */
location = (Lisp_Object *)
((char *) f + XSPECIFIER (specifier)->caching->offset_into_struct_frame);
- if (!EQ (newval, *location))
+ if (!EQ (newval, *location) || XSPECIFIER (specifier)->caching->always_recompute)
{
- Lisp_Object oldval = *location;
+ oldval = *location;
*location = newval;
(XSPECIFIER (specifier)->caching->value_changed_in_frame)
(specifier, f, oldval);
What really needs to be done is to write a function
`make-specifier-type' that creates new specifier types.
- #### I'll look into this for 19.14.
- */
+
+ #### [I'll look into this for 19.14.] Well, sometime. (Currently
+ May 2000, 21.2 is in development. 19.14 was released in June 1996.) */
"A generic specifier is a generalized kind of specifier with user-defined\n"
"semantics. The instantiator can be any kind of Lisp object, and the\n"
DEFUN ("generic-specifier-p", Fgeneric_specifier_p, 1, 1, 0, /*
Return non-nil if OBJECT is a generic specifier.
-A generic specifier allows any kind of Lisp object as an instantiator,
-and returns back the Lisp object unchanged when it is instantiated.
+See `make-generic-specifier' for a description of possible generic
+instantiators.
*/
(object))
{
DEFUN ("integer-specifier-p", Finteger_specifier_p, 1, 1, 0, /*
Return non-nil if OBJECT is an integer specifier.
+
+See `make-integer-specifier' for a description of possible integer
+instantiators.
*/
(object))
{
DEFUN ("natnum-specifier-p", Fnatnum_specifier_p, 1, 1, 0, /*
Return non-nil if OBJECT is a natnum (non-negative-integer) specifier.
+
+See `make-natnum-specifier' for a description of possible natnum
+instantiators.
*/
(object))
{
boolean_validate (Lisp_Object instantiator)
{
if (!EQ (instantiator, Qt) && !EQ (instantiator, Qnil))
- signal_simple_error ("Must be t or nil", instantiator);
+ signal_type_error (Qspecifier_argument_error, "Must be t or nil",
+ instantiator);
}
DEFUN ("boolean-specifier-p", Fboolean_specifier_p, 1, 1, 0, /*
Return non-nil if OBJECT is a boolean specifier.
+
+See `make-boolean-specifier' for a description of possible boolean
+instantiators.
*/
(object))
{
DEFINE_SPECIFIER_TYPE (display_table);
-#define VALID_SINGLE_DISPTABLE_INSTANTIATOR_P(instantiator) \
- (VECTORP (instantiator) \
- || (CHAR_TABLEP (instantiator) \
- && (XCHAR_TABLE_TYPE (instantiator) == CHAR_TABLE_TYPE_CHAR \
- || XCHAR_TABLE_TYPE (instantiator) == CHAR_TABLE_TYPE_GENERIC)) \
+#define VALID_SINGLE_DISPTABLE_INSTANTIATOR_P(instantiator) \
+ (VECTORP (instantiator) \
+ || (CHAR_TABLEP (instantiator) \
+ && (XCHAR_TABLE_TYPE (instantiator) == CHAR_TABLE_TYPE_CHAR \
+ || XCHAR_TABLE_TYPE (instantiator) == CHAR_TABLE_TYPE_GENERIC)) \
|| RANGE_TABLEP (instantiator))
static void
if (!VALID_SINGLE_DISPTABLE_INSTANTIATOR_P (instantiator))
{
lose:
- dead_wrong_type_argument (display_table_specifier_methods->predicate_symbol,
+ dead_wrong_type_argument
+ (display_table_specifier_methods->predicate_symbol,
instantiator);
}
}
DEFUN ("display-table-specifier-p", Fdisplay_table_specifier_p, 1, 1, 0, /*
Return non-nil if OBJECT is a display-table specifier.
+
+See `current-display-table' for a description of possible display-table
+instantiators.
*/
(object))
{
void
syms_of_specifier (void)
{
- defsymbol (&Qspecifierp, "specifierp");
+ INIT_LRECORD_IMPLEMENTATION (specifier);
+
+ DEFSYMBOL (Qspecifierp);
- defsymbol (&Qconsole_type, "console-type");
- defsymbol (&Qdevice_class, "device-class");
+ DEFSYMBOL (Qconsole_type);
+ DEFSYMBOL (Qdevice_class);
- /* Qinteger, Qboolean, Qgeneric defined in general.c */
- defsymbol (&Qnatnum, "natnum");
+ /* specifier types defined in general.c. */
DEFSUBR (Fvalid_specifier_type_p);
DEFSUBR (Fspecifier_type_list);
/* locales are defined in general.c. */
- defsymbol (&Qprepend, "prepend");
- defsymbol (&Qappend, "append");
- defsymbol (&Qremove_tag_set_prepend, "remove-tag-set-prepend");
- defsymbol (&Qremove_tag_set_append, "remove-tag-set-append");
- defsymbol (&Qremove_locale, "remove-locale");
- defsymbol (&Qremove_locale_type, "remove-locale-type");
- defsymbol (&Qremove_all, "remove-all");
+ /* some how-to-add flags in general.c. */
+ DEFSYMBOL (Qremove_tag_set_prepend);
+ DEFSYMBOL (Qremove_tag_set_append);
+ DEFSYMBOL (Qremove_locale);
+ DEFSYMBOL (Qremove_locale_type);
- defsymbol (&Qfallback, "fallback");
+ DEFERROR_STANDARD (Qspecifier_syntax_error, Qsyntax_error);
+ DEFERROR_STANDARD (Qspecifier_argument_error, Qinvalid_argument);
+ DEFERROR_STANDARD (Qspecifier_change_error, Qinvalid_change);
}
void
specifier_type_create (void)
{
the_specifier_type_entry_dynarr = Dynarr_new (specifier_type_entry);
- dumpstruct (&the_specifier_type_entry_dynarr, &sted_description);
+ dump_add_root_struct_ptr (&the_specifier_type_entry_dynarr, &sted_description);
Vspecifier_type_list = Qnil;
staticpro (&Vspecifier_type_list);
SPECIFIER_HAS_METHOD (boolean, validate);
- INITIALIZE_SPECIFIER_TYPE (display_table, "display-table", "display-table-p");
+ INITIALIZE_SPECIFIER_TYPE (display_table, "display-table",
+ "display-table-p");
SPECIFIER_HAS_METHOD (display_table, validate);
}
/* Do NOT mark through this, or specifiers will never be GC'd.
This is the same deal as for weak hash tables. */
Vall_specifiers = Qnil;
- pdump_wire_list (&Vall_specifiers);
+ dump_add_weak_object_chain (&Vall_specifiers);
Vuser_defined_tags = Qnil;
staticpro (&Vuser_defined_tags);