\f
#ifdef UTF2000
-static void
-decode_char_table_range (Lisp_Object range, struct chartab_range *outrange);
-
-int
-map_char_id_table (Lisp_Char_ID_Table *ct,
- struct chartab_range *range,
- int (*fn) (struct chartab_range *range,
- Lisp_Object val, void *arg),
- void *arg);
-
#define BT_UINT8_MIN 0
#define BT_UINT8_MAX (UCHAR_MAX - 3)
#define BT_UINT8_t (UCHAR_MAX - 2)
return obj;
}
+static Lisp_Object
+copy_uint8_byte_table (Lisp_Object entry)
+{
+ Lisp_Uint8_Byte_Table *cte = XUINT8_BYTE_TABLE (entry);
+ Lisp_Object obj;
+ int i;
+ Lisp_Uint8_Byte_Table *ctenew
+ = alloc_lcrecord_type (Lisp_Uint8_Byte_Table,
+ &lrecord_uint8_byte_table);
+
+ for (i = 0; i < 256; i++)
+ {
+ ctenew->property[i] = cte->property[i];
+ }
+
+ XSETUINT8_BYTE_TABLE (obj, ctenew);
+ return obj;
+}
+
static int
uint8_byte_table_same_value_p (Lisp_Object obj)
{
static int
map_over_uint8_byte_table (Lisp_Uint8_Byte_Table *ct, Emchar ofs, int place,
- Lisp_Object ccs,
int (*fn) (struct chartab_range *range,
Lisp_Object val, void *arg),
void *arg)
c1 = c + unit;
for (; c < c1 && retval == 0; c++)
{
- if ( NILP (ccs) || charset_code_point (ccs, c) >= 0 )
- {
- rainj.ch = c;
- retval = (fn) (&rainj, UINT8_DECODE (ct->property[i]), arg);
- }
+ rainj.ch = c;
+ retval = (fn) (&rainj, UINT8_DECODE (ct->property[i]), arg);
}
}
else
}
static Lisp_Object
+copy_uint16_byte_table (Lisp_Object entry)
+{
+ Lisp_Uint16_Byte_Table *cte = XUINT16_BYTE_TABLE (entry);
+ Lisp_Object obj;
+ int i;
+ Lisp_Uint16_Byte_Table *ctenew
+ = alloc_lcrecord_type (Lisp_Uint16_Byte_Table,
+ &lrecord_uint16_byte_table);
+
+ for (i = 0; i < 256; i++)
+ {
+ ctenew->property[i] = cte->property[i];
+ }
+
+ XSETUINT16_BYTE_TABLE (obj, ctenew);
+ return obj;
+}
+
+static Lisp_Object
expand_uint8_byte_table_to_uint16 (Lisp_Object table)
{
Lisp_Object obj;
static int
map_over_uint16_byte_table (Lisp_Uint16_Byte_Table *ct, Emchar ofs, int place,
- Lisp_Object ccs,
int (*fn) (struct chartab_range *range,
Lisp_Object val, void *arg),
void *arg)
c1 = c + unit;
for (; c < c1 && retval == 0; c++)
{
- if ( NILP (ccs) || charset_code_point (ccs, c) >= 0 )
- {
- rainj.ch = c;
- retval = (fn) (&rainj, UINT16_DECODE (ct->property[i]),
- arg);
- }
+ rainj.ch = c;
+ retval = (fn) (&rainj, UINT16_DECODE (ct->property[i]), arg);
}
}
else
return obj;
}
+static Lisp_Object
+copy_byte_table (Lisp_Object entry)
+{
+ Lisp_Byte_Table *cte = XBYTE_TABLE (entry);
+ Lisp_Object obj;
+ int i;
+ Lisp_Byte_Table *ctnew
+ = alloc_lcrecord_type (Lisp_Byte_Table, &lrecord_byte_table);
+
+ for (i = 0; i < 256; i++)
+ {
+ if (UINT8_BYTE_TABLE_P (cte->property[i]))
+ {
+ ctnew->property[i] = copy_uint8_byte_table (cte->property[i]);
+ }
+ else if (UINT16_BYTE_TABLE_P (cte->property[i]))
+ {
+ ctnew->property[i] = copy_uint16_byte_table (cte->property[i]);
+ }
+ else if (BYTE_TABLE_P (cte->property[i]))
+ {
+ ctnew->property[i] = copy_byte_table (cte->property[i]);
+ }
+ else
+ ctnew->property[i] = cte->property[i];
+ }
+
+ XSETBYTE_TABLE (obj, ctnew);
+ return obj;
+}
+
static int
byte_table_same_value_p (Lisp_Object obj)
{
static int
map_over_byte_table (Lisp_Byte_Table *ct, Emchar ofs, int place,
- Lisp_Object ccs,
int (*fn) (struct chartab_range *range,
Lisp_Object val, void *arg),
void *arg)
{
retval
= map_over_uint8_byte_table (XUINT8_BYTE_TABLE(v),
- c, place - 1, ccs, fn, arg);
+ c, place - 1, fn, arg);
c += unit;
}
else if (UINT16_BYTE_TABLE_P (v))
{
retval
= map_over_uint16_byte_table (XUINT16_BYTE_TABLE(v),
- c, place - 1, ccs, fn, arg);
+ c, place - 1, fn, arg);
c += unit;
}
else if (BYTE_TABLE_P (v))
{
retval = map_over_byte_table (XBYTE_TABLE(v),
- c, place - 1, ccs, fn, arg);
+ c, place - 1, fn, arg);
c += unit;
}
else if (!UNBOUNDP (v))
for (; c < c1 && retval == 0; c++)
{
- if ( NILP (ccs) || charset_code_point (ccs, c) >= 0 )
- {
- rainj.ch = c;
- retval = (fn) (&rainj, v, arg);
- }
+ rainj.ch = c;
+ retval = (fn) (&rainj, v, arg);
}
}
else
}
-Lisp_Object get_byte_table (Lisp_Object table, unsigned char idx);
-Lisp_Object put_byte_table (Lisp_Object table, unsigned char idx,
- Lisp_Object value);
-
Lisp_Object
get_byte_table (Lisp_Object table, unsigned char idx)
{
return table;
}
-static Lisp_Object
-mark_char_id_table (Lisp_Object obj)
-{
- Lisp_Char_ID_Table *cte = XCHAR_ID_TABLE (obj);
-
- return cte->table;
-}
-
-static void
-print_char_id_table (Lisp_Object obj, Lisp_Object printcharfun, int escapeflag)
-{
- Lisp_Object table = XCHAR_ID_TABLE (obj)->table;
- int i;
- struct gcpro gcpro1, gcpro2;
- GCPRO2 (obj, printcharfun);
-
- write_c_string ("#<char-id-table ", printcharfun);
- for (i = 0; i < 256; i++)
- {
- Lisp_Object elt = get_byte_table (table, i);
- if (i != 0) write_c_string ("\n ", printcharfun);
- if (EQ (elt, Qunbound))
- write_c_string ("void", printcharfun);
- else
- print_internal (elt, printcharfun, escapeflag);
- }
- UNGCPRO;
- write_c_string (">", printcharfun);
-}
-
-static int
-char_id_table_equal (Lisp_Object obj1, Lisp_Object obj2, int depth)
-{
- Lisp_Object table1 = XCHAR_ID_TABLE (obj1)->table;
- Lisp_Object table2 = XCHAR_ID_TABLE (obj2)->table;
- int i;
-
- for (i = 0; i < 256; i++)
- {
- if (!internal_equal (get_byte_table (table1, i),
- get_byte_table (table2, i), 0))
- return 0;
- }
- return -1;
-}
-
-static unsigned long
-char_id_table_hash (Lisp_Object obj, int depth)
-{
- Lisp_Char_ID_Table *cte = XCHAR_ID_TABLE (obj);
-
- return char_id_table_hash (cte->table, depth + 1);
-}
-
-static const struct lrecord_description char_id_table_description[] = {
- { XD_LISP_OBJECT, offsetof(Lisp_Char_ID_Table, table) },
- { XD_END }
-};
-
-DEFINE_LRECORD_IMPLEMENTATION ("char-id-table", char_id_table,
- mark_char_id_table,
- print_char_id_table,
- 0, char_id_table_equal,
- char_id_table_hash,
- char_id_table_description,
- Lisp_Char_ID_Table);
Lisp_Object
make_char_id_table (Lisp_Object initval)
{
Lisp_Object obj;
- Lisp_Char_ID_Table *cte;
-
- cte = alloc_lcrecord_type (Lisp_Char_ID_Table, &lrecord_char_id_table);
-
- cte->table = make_byte_table (initval);
-
- XSETCHAR_ID_TABLE (obj, cte);
+ obj = Fmake_char_table (Qgeneric);
+ fill_char_table (XCHAR_TABLE (obj), initval);
return obj;
}
-Lisp_Object
-get_char_id_table (Lisp_Char_ID_Table* cit, Emchar ch)
-{
- unsigned int code = ch;
-
- return get_byte_table (get_byte_table
- (get_byte_table
- (get_byte_table
- (cit->table,
- (unsigned char)(code >> 24)),
- (unsigned char) (code >> 16)),
- (unsigned char) (code >> 8)),
- (unsigned char) code);
-}
-
-INLINE_HEADER void
-put_char_id_table_0 (Lisp_Char_ID_Table* cit, Emchar code, Lisp_Object value);
-INLINE_HEADER void
-put_char_id_table_0 (Lisp_Char_ID_Table* cit, Emchar code, Lisp_Object value)
-{
- Lisp_Object table1, table2, table3, table4;
-
- table1 = cit->table;
- table2 = get_byte_table (table1, (unsigned char)(code >> 24));
- table3 = get_byte_table (table2, (unsigned char)(code >> 16));
- table4 = get_byte_table (table3, (unsigned char)(code >> 8));
-
- table4 = put_byte_table (table4, (unsigned char) code, value);
- table3 = put_byte_table (table3, (unsigned char)(code >> 8), table4);
- table2 = put_byte_table (table2, (unsigned char)(code >> 16), table3);
- cit->table = put_byte_table (table1, (unsigned char)(code >> 24), table2);
-}
-
-void
-put_char_id_table (Lisp_Char_ID_Table* cit,
- Lisp_Object character, Lisp_Object value)
-{
- struct chartab_range range;
-
- decode_char_table_range (character, &range);
- switch (range.type)
- {
- case CHARTAB_RANGE_ALL:
- cit->table = value;
- break;
- case CHARTAB_RANGE_CHARSET:
- {
- Emchar c;
- Lisp_Object encoding_table = XCHARSET_ENCODING_TABLE (range.charset);
-
- if ( CHAR_ID_TABLE_P (encoding_table) )
- {
- for (c = 0; c < 1 << 24; c++)
- {
- if ( INTP (get_char_id_table (XCHAR_ID_TABLE(encoding_table),
- c)) )
- put_char_id_table_0 (cit, c, value);
- }
- }
- else
- {
- for (c = 0; c < 1 << 24; c++)
- {
- if ( charset_code_point (range.charset, c) >= 0 )
- put_char_id_table_0 (cit, c, value);
- }
- }
- }
- break;
- case CHARTAB_RANGE_ROW:
- {
- int cell_min, cell_max, i;
-
- if (XCHARSET_DIMENSION (range.charset) < 2)
- signal_simple_error ("Charset in row vector must be multi-byte",
- range.charset);
- else
- {
- switch (XCHARSET_CHARS (range.charset))
- {
- case 94:
- cell_min = 33; cell_max = 126;
- break;
- case 96:
- cell_min = 32; cell_max = 127;
- break;
- case 128:
- cell_min = 0; cell_max = 127;
- break;
- case 256:
- cell_min = 0; cell_max = 255;
- break;
- default:
- abort ();
- }
- }
- if (XCHARSET_DIMENSION (range.charset) == 2)
- check_int_range (range.row, cell_min, cell_max);
- else if (XCHARSET_DIMENSION (range.charset) == 3)
- {
- check_int_range (range.row >> 8 , cell_min, cell_max);
- check_int_range (range.row & 0xFF, cell_min, cell_max);
- }
- else if (XCHARSET_DIMENSION (range.charset) == 4)
- {
- check_int_range ( range.row >> 16 , cell_min, cell_max);
- check_int_range ((range.row >> 8) & 0xFF, cell_min, cell_max);
- check_int_range ( range.row & 0xFF, cell_min, cell_max);
- }
- else
- abort ();
-
- for (i = cell_min; i <= cell_max; i++)
- {
- Emchar ch = DECODE_CHAR (range.charset, (range.row << 8) | i);
- if ( charset_code_point (range.charset, ch) >= 0 )
- put_char_id_table_0 (cit, ch, value);
- }
- }
- break;
- case CHARTAB_RANGE_CHAR:
- put_char_id_table_0 (cit, range.ch, value);
- break;
- }
-}
-
-/* Map FN (with client data ARG) in char table CT.
- Mapping stops the first time FN returns non-zero, and that value
- becomes the return value of map_char_id_table(). */
-int
-map_char_id_table (Lisp_Char_ID_Table *ct,
- struct chartab_range *range,
- int (*fn) (struct chartab_range *range,
- Lisp_Object val, void *arg),
- void *arg)
-{
- Lisp_Object v = ct->table;
-
- switch (range->type)
- {
- case CHARTAB_RANGE_ALL:
- if (UINT8_BYTE_TABLE_P (v))
- return map_over_uint8_byte_table (XUINT8_BYTE_TABLE(v), 0, 3,
- Qnil, fn, arg);
- else if (UINT16_BYTE_TABLE_P (v))
- return map_over_uint16_byte_table (XUINT16_BYTE_TABLE(v), 0, 3,
- Qnil, fn, arg);
- else if (BYTE_TABLE_P (v))
- return map_over_byte_table (XBYTE_TABLE(v), 0, 3, Qnil, fn, arg);
- else if (!UNBOUNDP (v))
- {
- struct chartab_range rainj;
- int unit = 1 << 24;
- Emchar c = 0;
- Emchar c1 = c + unit;
- int retval;
-
- rainj.type = CHARTAB_RANGE_CHAR;
-
- for (retval = 0; c < c1 && retval == 0; c++)
- {
- rainj.ch = c;
- retval = (fn) (&rainj, v, arg);
- }
- }
- return 0;
- case CHARTAB_RANGE_CHARSET:
- if (UINT8_BYTE_TABLE_P (v))
- return map_over_uint8_byte_table (XUINT8_BYTE_TABLE(v), 0, 3,
- range->charset, fn, arg);
- else if (UINT16_BYTE_TABLE_P (v))
- return map_over_uint16_byte_table (XUINT16_BYTE_TABLE(v), 0, 3,
- range->charset, fn, arg);
- else if (BYTE_TABLE_P (v))
- return map_over_byte_table (XBYTE_TABLE(v), 0, 3,
- range->charset, fn, arg);
- else if (!UNBOUNDP (v))
- {
- struct chartab_range rainj;
- int unit = 1 << 24;
- Emchar c = 0;
- Emchar c1 = c + unit;
- int retval;
-
- rainj.type = CHARTAB_RANGE_CHAR;
-
- for (retval = 0; c < c1 && retval == 0; c++)
- {
- if ( charset_code_point (range->charset, c) >= 0 )
- {
- rainj.ch = c;
- retval = (fn) (&rainj, v, arg);
- }
- }
- }
- return 0;
- case CHARTAB_RANGE_ROW:
- {
- int cell_min, cell_max, i;
- int retval;
- struct chartab_range rainj;
-
- if (XCHARSET_DIMENSION (range->charset) < 2)
- signal_simple_error ("Charset in row vector must be multi-byte",
- range->charset);
- else
- {
- switch (XCHARSET_CHARS (range->charset))
- {
- case 94:
- cell_min = 33; cell_max = 126;
- break;
- case 96:
- cell_min = 32; cell_max = 127;
- break;
- case 128:
- cell_min = 0; cell_max = 127;
- break;
- case 256:
- cell_min = 0; cell_max = 255;
- break;
- default:
- abort ();
- }
- }
- if (XCHARSET_DIMENSION (range->charset) == 2)
- check_int_range (range->row, cell_min, cell_max);
- else if (XCHARSET_DIMENSION (range->charset) == 3)
- {
- check_int_range (range->row >> 8 , cell_min, cell_max);
- check_int_range (range->row & 0xFF, cell_min, cell_max);
- }
- else if (XCHARSET_DIMENSION (range->charset) == 4)
- {
- check_int_range ( range->row >> 16 , cell_min, cell_max);
- check_int_range ((range->row >> 8) & 0xFF, cell_min, cell_max);
- check_int_range ( range->row & 0xFF, cell_min, cell_max);
- }
- else
- abort ();
-
- rainj.type = CHARTAB_RANGE_CHAR;
- for (retval =0, i = cell_min; i <= cell_max && retval == 0; i++)
- {
- Emchar ch = DECODE_CHAR (range->charset, (range->row << 8) | i);
- Lisp_Object val
- = get_byte_table (get_byte_table
- (get_byte_table
- (get_byte_table
- (v,
- (unsigned char)(ch >> 24)),
- (unsigned char) (ch >> 16)),
- (unsigned char) (ch >> 8)),
- (unsigned char) ch);
-
- if (!UNBOUNDP (val))
- {
- rainj.ch = ch;
- retval = (fn) (&rainj, val, arg);
- }
- }
- return retval;
- }
- case CHARTAB_RANGE_CHAR:
- {
- Emchar ch = range->ch;
- Lisp_Object val
- = get_byte_table (get_byte_table
- (get_byte_table
- (get_byte_table
- (v,
- (unsigned char)(ch >> 24)),
- (unsigned char) (ch >> 16)),
- (unsigned char) (ch >> 8)),
- (unsigned char) ch);
- struct chartab_range rainj;
-
- if (!UNBOUNDP (val))
- {
- rainj.type = CHARTAB_RANGE_CHAR;
- rainj.ch = ch;
- return (fn) (&rainj, val, arg);
- }
- else
- return 0;
- }
- default:
- abort ();
- }
- return 0;
-}
-
-
Lisp_Object Vcharacter_composition_table;
Lisp_Object Vcharacter_variant_table;
Lisp_Object ret;
Emchar c = to_char_id (v, "Invalid value for composition", list);
- ret = get_char_id_table (XCHAR_ID_TABLE(table), c);
+ ret = get_char_id_table (XCHAR_TABLE(table), c);
rest = Fcdr (rest);
if (NILP (rest))
{
- if (!CHAR_ID_TABLE_P (ret))
+ if (!CHAR_TABLEP (ret))
return ret;
else
return Qt;
}
else if (!CONSP (rest))
break;
- else if (CHAR_ID_TABLE_P (ret))
+ else if (CHAR_TABLEP (ret))
table = ret;
else
signal_simple_error ("Invalid table is found with", list);
{
CHECK_CHAR (character);
return Fcopy_list (get_char_id_table
- (XCHAR_ID_TABLE(Vcharacter_variant_table),
+ (XCHAR_TABLE(Vcharacter_variant_table),
XCHAR (character)));
}
/* Char Table object */
/************************************************************************/
-#ifdef MULE
+#if defined(MULE)&&!defined(UTF2000)
static Lisp_Object
mark_char_table_entry (Lisp_Object obj)
mark_char_table (Lisp_Object obj)
{
Lisp_Char_Table *ct = XCHAR_TABLE (obj);
+#ifdef UTF2000
+
+ mark_object (ct->table);
+#else
int i;
for (i = 0; i < NUM_ASCII_CHARS; i++)
for (i = 0; i < NUM_LEADING_BYTES; i++)
mark_object (ct->level1[i]);
#endif
+#endif
+#ifdef UTF2000
+ return ct->default_value;
+#else
return ct->mirror_table;
+#endif
}
/* WARNING: All functions of this nature need to be written extremely
print_internal (val, printcharfun, 1);
}
-#ifdef MULE
+#if defined(MULE)&&!defined(UTF2000)
static void
print_chartab_charset_row (Lisp_Object charset,
print_char_table (Lisp_Object obj, Lisp_Object printcharfun, int escapeflag)
{
Lisp_Char_Table *ct = XCHAR_TABLE (obj);
+#ifdef UTF2000
+ int i;
+ struct gcpro gcpro1, gcpro2;
+ GCPRO2 (obj, printcharfun);
+
+ write_c_string ("#s(char-table ", printcharfun);
+ write_c_string (" ", printcharfun);
+ write_c_string (string_data
+ (symbol_name
+ (XSYMBOL (char_table_type_to_symbol (ct->type)))),
+ printcharfun);
+ write_c_string ("\n ", printcharfun);
+ print_internal (ct->default_value, printcharfun, escapeflag);
+ for (i = 0; i < 256; i++)
+ {
+ Lisp_Object elt = get_byte_table (ct->table, i);
+ if (i != 0) write_c_string ("\n ", printcharfun);
+ if (EQ (elt, Qunbound))
+ write_c_string ("void", printcharfun);
+ else
+ print_internal (elt, printcharfun, escapeflag);
+ }
+ UNGCPRO;
+#else /* non UTF2000 */
char buf[200];
sprintf (buf, "#s(char-table type %s data (",
}
}
#endif /* MULE */
+#endif /* non UTF2000 */
write_c_string ("))", printcharfun);
}
if (CHAR_TABLE_TYPE (ct1) != CHAR_TABLE_TYPE (ct2))
return 0;
+#ifdef UTF2000
+ for (i = 0; i < 256; i++)
+ {
+ if (!internal_equal (get_byte_table (ct1->table, i),
+ get_byte_table (ct2->table, i), 0))
+ return 0;
+ }
+#else
for (i = 0; i < NUM_ASCII_CHARS; i++)
if (!internal_equal (ct1->ascii[i], ct2->ascii[i], depth + 1))
return 0;
if (!internal_equal (ct1->level1[i], ct2->level1[i], depth + 1))
return 0;
#endif /* MULE */
+#endif /* non UTF2000 */
return 1;
}
char_table_hash (Lisp_Object obj, int depth)
{
Lisp_Char_Table *ct = XCHAR_TABLE (obj);
+#ifdef UTF2000
+ return byte_table_hash (ct->table, depth + 1);
+#else
unsigned long hashval = internal_array_hash (ct->ascii, NUM_ASCII_CHARS,
depth);
#ifdef MULE
internal_array_hash (ct->level1, NUM_LEADING_BYTES, depth));
#endif /* MULE */
return hashval;
+#endif
}
static const struct lrecord_description char_table_description[] = {
+#ifdef UTF2000
+ { XD_LISP_OBJECT, offsetof(Lisp_Char_Table, table) },
+ { XD_LISP_OBJECT, offsetof(Lisp_Char_Table, default_value) },
+#else
{ XD_LISP_OBJECT_ARRAY, offsetof (Lisp_Char_Table, ascii), NUM_ASCII_CHARS },
#ifdef MULE
{ XD_LISP_OBJECT_ARRAY, offsetof (Lisp_Char_Table, level1), NUM_LEADING_BYTES },
#endif
+#endif
+#ifndef UTF2000
{ XD_LISP_OBJECT, offsetof (Lisp_Char_Table, mirror_table) },
+#endif
{ XD_LO_LINK, offsetof (Lisp_Char_Table, next_table) },
{ XD_END }
};
void
fill_char_table (Lisp_Char_Table *ct, Lisp_Object value)
{
+#ifdef UTF2000
+ ct->table = Qunbound;
+ ct->default_value = value;
+#else
int i;
for (i = 0; i < NUM_ASCII_CHARS; i++)
for (i = 0; i < NUM_LEADING_BYTES; i++)
ct->level1[i] = value;
#endif /* MULE */
+#endif
+#ifndef UTF2000
if (ct->type == CHAR_TABLE_TYPE_SYNTAX)
update_syntax_table (ct);
+#endif
}
DEFUN ("reset-char-table", Freset_char_table, 1, 1, 0, /*
ct = alloc_lcrecord_type (Lisp_Char_Table, &lrecord_char_table);
ct->type = ty;
+#ifndef UTF2000
if (ty == CHAR_TABLE_TYPE_SYNTAX)
{
ct->mirror_table = Fmake_char_table (Qgeneric);
}
else
ct->mirror_table = Qnil;
+#endif
ct->next_table = Qnil;
XSETCHAR_TABLE (obj, ct);
if (ty == CHAR_TABLE_TYPE_SYNTAX)
return obj;
}
-#ifdef MULE
+#if defined(MULE)&&!defined(UTF2000)
static Lisp_Object
make_char_table_entry (Lisp_Object initval)
{
Lisp_Char_Table *ct, *ctnew;
Lisp_Object obj;
+#ifndef UTF2000
int i;
+#endif
CHECK_CHAR_TABLE (char_table);
ct = XCHAR_TABLE (char_table);
ctnew = alloc_lcrecord_type (Lisp_Char_Table, &lrecord_char_table);
ctnew->type = ct->type;
+#ifdef UTF2000
+ ctnew->default_value = ct->default_value;
+
+ if (UINT8_BYTE_TABLE_P (ct->table))
+ {
+ ctnew->table = copy_uint8_byte_table (ct->table);
+ }
+ else if (UINT16_BYTE_TABLE_P (ct->table))
+ {
+ ctnew->table = copy_uint16_byte_table (ct->table);
+ }
+ else if (BYTE_TABLE_P (ct->table))
+ {
+ ctnew->table = copy_byte_table (ct->table);
+ }
+ else if (!UNBOUNDP (ct->table))
+ ctnew->table = ct->table;
+#else /* non UTF2000 */
for (i = 0; i < NUM_ASCII_CHARS; i++)
{
}
#endif /* MULE */
+#endif /* non UTF2000 */
+#ifndef UTF2000
if (CHAR_TABLEP (ct->mirror_table))
ctnew->mirror_table = Fcopy_char_table (ct->mirror_table);
else
ctnew->mirror_table = ct->mirror_table;
+#endif
ctnew->next_table = Qnil;
XSETCHAR_TABLE (obj, ctnew);
if (ctnew->type == CHAR_TABLE_TYPE_SYNTAX)
return obj;
}
-static void
+INLINE_HEADER int XCHARSET_CELL_RANGE (Lisp_Object ccs);
+INLINE_HEADER int
+XCHARSET_CELL_RANGE (Lisp_Object ccs)
+{
+ switch (XCHARSET_CHARS (ccs))
+ {
+ case 94:
+ return (33 << 8) | 126;
+ case 96:
+ return (32 << 8) | 127;
+#ifdef UTF2000
+ case 128:
+ return (0 << 8) | 127;
+ case 256:
+ return (0 << 8) | 255;
+#endif
+ default:
+ abort ();
+ return 0;
+ }
+}
+
+#ifndef UTF2000
+static
+#endif
+void
decode_char_table_range (Lisp_Object range, struct chartab_range *outrange)
{
if (EQ (range, Qt))
outrange->type = CHARTAB_RANGE_ALL;
+ else if (EQ (range, Qnil))
+ outrange->type = CHARTAB_RANGE_DEFAULT;
else if (CHAR_OR_CHAR_INTP (range))
{
outrange->type = CHARTAB_RANGE_CHAR;
{
Lisp_Vector *vec = XVECTOR (range);
Lisp_Object *elts = vector_data (vec);
- if (vector_length (vec) != 2)
- signal_simple_error ("Length of charset row vector must be 2",
- range);
+ int cell_min, cell_max;
+
outrange->type = CHARTAB_RANGE_ROW;
outrange->charset = Fget_charset (elts[0]);
CHECK_INT (elts[1]);
outrange->row = XINT (elts[1]);
- if (XCHARSET_DIMENSION (outrange->charset) >= 2)
+ if (XCHARSET_DIMENSION (outrange->charset) < 2)
+ signal_simple_error ("Charset in row vector must be multi-byte",
+ outrange->charset);
+ else
{
- switch (XCHARSET_CHARS (outrange->charset))
- {
- case 94:
- check_int_range (outrange->row, 33, 126);
- break;
- case 96:
- check_int_range (outrange->row, 32, 127);
- break;
- default:
- abort ();
- }
+ int ret = XCHARSET_CELL_RANGE (outrange->charset);
+
+ cell_min = ret >> 8;
+ cell_max = ret & 0xFF;
+ }
+ if (XCHARSET_DIMENSION (outrange->charset) == 2)
+ check_int_range (outrange->row, cell_min, cell_max);
+#ifdef UTF2000
+ else if (XCHARSET_DIMENSION (outrange->charset) == 3)
+ {
+ check_int_range (outrange->row >> 8 , cell_min, cell_max);
+ check_int_range (outrange->row & 0xFF, cell_min, cell_max);
+ }
+ else if (XCHARSET_DIMENSION (outrange->charset) == 4)
+ {
+ check_int_range ( outrange->row >> 16 , cell_min, cell_max);
+ check_int_range ((outrange->row >> 8) & 0xFF, cell_min, cell_max);
+ check_int_range ( outrange->row & 0xFF, cell_min, cell_max);
}
+#endif
else
- signal_simple_error ("Charset in row vector must be multi-byte",
- outrange->charset);
+ abort ();
}
else
{
#endif /* MULE */
}
-#ifdef MULE
+#if defined(MULE)&&!defined(UTF2000)
/* called from CHAR_TABLE_VALUE(). */
Lisp_Object
Lisp_Object
get_char_table (Emchar ch, Lisp_Char_Table *ct)
{
-#ifdef MULE
+#ifdef UTF2000
+ return get_char_id_table (ct, ch);
+#elif defined(MULE)
{
Lisp_Object charset;
int byte1, byte2;
{
case CHARTAB_RANGE_ALL:
{
+#ifdef UTF2000
+ if (UINT8_BYTE_TABLE_P (ct->table))
+ return multi;
+ else if (UINT16_BYTE_TABLE_P (ct->table))
+ return multi;
+ else if (BYTE_TABLE_P (ct->table))
+ return multi;
+ else
+ return ct->table;
+#else /* non UTF2000 */
int i;
Lisp_Object first = ct->ascii[0];
#endif /* MULE */
return first;
+#endif /* non UTF2000 */
}
#ifdef MULE
case CHARTAB_RANGE_CHARSET:
+#ifdef UTF2000
+ return multi;
+#else
if (EQ (rainj.charset, Vcharset_ascii))
{
int i;
return multi;
return val;
}
+#endif
case CHARTAB_RANGE_ROW:
+#ifdef UTF2000
+ return multi;
+#else
{
Lisp_Object val = ct->level1[XCHARSET_LEADING_BYTE (rainj.charset) -
MIN_LEADING_BYTE];
return multi;
return val;
}
+#endif /* not UTF2000 */
#endif /* not MULE */
default:
switch (range->type)
{
case CHARTAB_RANGE_ALL:
+ /* printf ("put-char-table: range = all\n"); */
fill_char_table (ct, val);
return; /* avoid the duplicate call to update_syntax_table() below,
since fill_char_table() also did that. */
+#ifdef UTF2000
+ case CHARTAB_RANGE_DEFAULT:
+ ct->default_value = val;
+ return;
+#endif
+
#ifdef MULE
case CHARTAB_RANGE_CHARSET:
+#ifdef UTF2000
+ {
+ Emchar c;
+ Lisp_Object encoding_table = XCHARSET_ENCODING_TABLE (range->charset);
+
+ /* printf ("put-char-table: range = charset: %d\n",
+ XCHARSET_LEADING_BYTE (range->charset));
+ */
+ if ( CHAR_TABLEP (encoding_table) )
+ {
+ for (c = 0; c < 1 << 24; c++)
+ {
+ if ( INTP (get_char_id_table (XCHAR_TABLE(encoding_table),
+ c)) )
+ put_char_id_table_0 (ct, c, val);
+ }
+ }
+ else
+ {
+ for (c = 0; c < 1 << 24; c++)
+ {
+ if ( charset_code_point (range->charset, c) >= 0 )
+ put_char_id_table_0 (ct, c, val);
+ }
+ }
+ }
+#else
if (EQ (range->charset, Vcharset_ascii))
{
int i;
int lb = XCHARSET_LEADING_BYTE (range->charset) - MIN_LEADING_BYTE;
ct->level1[lb] = val;
}
+#endif
break;
case CHARTAB_RANGE_ROW:
+#ifdef UTF2000
+ {
+ int cell_min, cell_max, i;
+
+ i = XCHARSET_CELL_RANGE (range->charset);
+ cell_min = i >> 8;
+ cell_max = i & 0xFF;
+ for (i = cell_min; i <= cell_max; i++)
+ {
+ Emchar ch = DECODE_CHAR (range->charset, (range->row << 8) | i);
+
+ if ( charset_code_point (range->charset, ch) >= 0 )
+ put_char_id_table_0 (ct, ch, val);
+ }
+ }
+#else
{
Lisp_Char_Table_Entry *cte;
int lb = XCHARSET_LEADING_BYTE (range->charset) - MIN_LEADING_BYTE;
cte = XCHAR_TABLE_ENTRY (ct->level1[lb]);
cte->level2[range->row - 32] = val;
}
+#endif /* not UTF2000 */
break;
#endif /* MULE */
case CHARTAB_RANGE_CHAR:
-#ifdef MULE
+#ifdef UTF2000
+ /* printf ("put-char-table: range = char: 0x%x\n", range->ch); */
+ put_char_id_table_0 (ct, range->ch, val);
+ break;
+#elif defined(MULE)
{
Lisp_Object charset;
int byte1, byte2;
#endif /* not MULE */
}
+#ifndef UTF2000
if (ct->type == CHAR_TABLE_TYPE_SYNTAX)
update_syntax_table (ct);
+#endif
}
DEFUN ("put-char-table", Fput_char_table, 3, 3, 0, /*
return Qnil;
}
+#ifndef UTF2000
/* Map FN over the ASCII chars in CT. */
static int
}
#endif /* MULE */
+#endif /* not UTF2000 */
+
+#ifdef UTF2000
+struct map_char_table_for_charset_arg
+{
+ int (*fn) (struct chartab_range *range, Lisp_Object val, void *arg);
+ Lisp_Char_Table *ct;
+ void *arg;
+};
+
+static int
+map_char_table_for_charset_fun (struct chartab_range *range,
+ Lisp_Object val, void *arg)
+{
+ struct map_char_table_for_charset_arg *closure =
+ (struct map_char_table_for_charset_arg *) arg;
+ Lisp_Object ret;
+
+ switch (range->type)
+ {
+ case CHARTAB_RANGE_ALL:
+ break;
+
+ case CHARTAB_RANGE_DEFAULT:
+ break;
+
+ case CHARTAB_RANGE_CHARSET:
+ break;
+
+ case CHARTAB_RANGE_ROW:
+ break;
+
+ case CHARTAB_RANGE_CHAR:
+ ret = get_char_table (range->ch, closure->ct);
+ if (!UNBOUNDP (ret))
+ return (closure->fn) (range, ret, closure->arg);
+ break;
+
+ default:
+ abort ();
+ }
+
+ return 0;
+}
+#endif
/* Map FN (with client data ARG) over range RANGE in char table CT.
Mapping stops the first time FN returns non-zero, and that value
switch (range->type)
{
case CHARTAB_RANGE_ALL:
+#ifdef UTF2000
+ if (!UNBOUNDP (ct->default_value))
+ {
+ struct chartab_range rainj;
+ int retval;
+
+ rainj.type = CHARTAB_RANGE_DEFAULT;
+ retval = (fn) (&rainj, ct->default_value, arg);
+ if (retval != 0)
+ return retval;
+ }
+ if (UINT8_BYTE_TABLE_P (ct->table))
+ return map_over_uint8_byte_table (XUINT8_BYTE_TABLE(ct->table),
+ 0, 3, fn, arg);
+ else if (UINT16_BYTE_TABLE_P (ct->table))
+ return map_over_uint16_byte_table (XUINT16_BYTE_TABLE(ct->table),
+ 0, 3, fn, arg);
+ else if (BYTE_TABLE_P (ct->table))
+ return map_over_byte_table (XBYTE_TABLE(ct->table),
+ 0, 3, fn, arg);
+ else if (!UNBOUNDP (ct->table))
+#if 0
+ {
+ struct chartab_range rainj;
+ int unit = 1 << 30;
+ Emchar c = 0;
+ Emchar c1 = c + unit;
+ int retval;
+
+ rainj.type = CHARTAB_RANGE_CHAR;
+
+ for (retval = 0; c < c1 && retval == 0; c++)
+ {
+ rainj.ch = c;
+ retval = (fn) (&rainj, ct->table, arg);
+ }
+ return retval;
+ }
+#else
+ return (fn) (range, ct->table, arg);
+#endif
+ return 0;
+#else
{
int retval;
#endif /* MULE */
return retval;
}
+#endif
+
+#ifdef UTF2000
+ case CHARTAB_RANGE_DEFAULT:
+ if (!UNBOUNDP (ct->default_value))
+ return (fn) (range, ct->default_value, arg);
+ return 0;
+#endif
#ifdef MULE
case CHARTAB_RANGE_CHARSET:
+#ifdef UTF2000
+ {
+ Lisp_Object encoding_table
+ = XCHARSET_ENCODING_TABLE (range->charset);
+
+ if (!NILP (encoding_table))
+ {
+ struct chartab_range rainj;
+ struct map_char_table_for_charset_arg mcarg;
+
+ mcarg.fn = fn;
+ mcarg.ct = ct;
+ mcarg.arg = arg;
+ rainj.type = CHARTAB_RANGE_ALL;
+ return map_char_table (XCHAR_TABLE(encoding_table),
+ &rainj,
+ &map_char_table_for_charset_fun,
+ &mcarg);
+ }
+ }
+ return 0;
+#else
return map_over_other_charset (ct,
XCHARSET_LEADING_BYTE (range->charset),
fn, arg);
+#endif
case CHARTAB_RANGE_ROW:
+#ifdef UTF2000
+ {
+ int cell_min, cell_max, i;
+ int retval;
+ struct chartab_range rainj;
+
+ i = XCHARSET_CELL_RANGE (range->charset);
+ cell_min = i >> 8;
+ cell_max = i & 0xFF;
+ rainj.type = CHARTAB_RANGE_CHAR;
+ for (retval =0, i = cell_min; i <= cell_max && retval == 0; i++)
+ {
+ Emchar ch = DECODE_CHAR (range->charset, (range->row << 8) | i);
+
+ if ( charset_code_point (range->charset, ch) >= 0 )
+ {
+ Lisp_Object val
+ = get_byte_table (get_byte_table
+ (get_byte_table
+ (get_byte_table
+ (ct->table,
+ (unsigned char)(ch >> 24)),
+ (unsigned char) (ch >> 16)),
+ (unsigned char) (ch >> 8)),
+ (unsigned char) ch);
+
+ if (UNBOUNDP (val))
+ val = ct->default_value;
+ rainj.ch = ch;
+ retval = (fn) (&rainj, val, arg);
+ }
+ }
+ return retval;
+ }
+#else
{
Lisp_Object val = ct->level1[XCHARSET_LEADING_BYTE (range->charset)
- MIN_LEADING_BYTE];
range->charset, range->row,
fn, arg);
}
+#endif /* not UTF2000 */
#endif /* MULE */
case CHARTAB_RANGE_CHAR:
{
Emchar ch = range->ch;
Lisp_Object val = CHAR_TABLE_VALUE_UNSAFE (ct, ch);
- struct chartab_range rainj;
- rainj.type = CHARTAB_RANGE_CHAR;
- rainj.ch = ch;
- return (fn) (&rainj, val, arg);
+ if (!UNBOUNDP (val))
+ {
+ struct chartab_range rainj;
+
+ rainj.type = CHARTAB_RANGE_CHAR;
+ rainj.ch = ch;
+ return (fn) (&rainj, val, arg);
+ }
+ return 0;
}
default:
ranjarg = Qt;
break;
+#ifdef UTF2000
+ case CHARTAB_RANGE_DEFAULT:
+ ranjarg = Qnil;
+ break;
+#endif
+
#ifdef MULE
case CHARTAB_RANGE_CHARSET:
ranjarg = XCHARSET_NAME (range->charset);
/* This function can GC */
struct char_attribute_alist_closure *caacl =
(struct char_attribute_alist_closure*) char_attribute_alist_closure;
- Lisp_Object ret = get_char_id_table (XCHAR_ID_TABLE(caacl->char_id), value);
+ Lisp_Object ret
+ = get_char_id_table (XCHAR_TABLE(value), caacl->char_id);
if (!UNBOUNDP (ret))
{
Lisp_Object *char_attribute_alist = caacl->char_attribute_alist;
Lisp_Object encoding_table = XCHARSET_ENCODING_TABLE (ccs);
Lisp_Object cpos;
- if ( CHAR_ID_TABLE_P (encoding_table)
+ if ( CHAR_TABLEP (encoding_table)
&& INTP (cpos
- = get_char_id_table (XCHAR_ID_TABLE(encoding_table),
+ = get_char_id_table (XCHAR_TABLE(encoding_table),
XCHAR (character))) )
{
alist = Fcons (Fcons (ccs, cpos), alist);
{
Lisp_Object encoding_table = XCHARSET_ENCODING_TABLE (ccs);
- if (CHAR_ID_TABLE_P (encoding_table))
- return get_char_id_table (XCHAR_ID_TABLE(encoding_table),
+ if (CHAR_TABLEP (encoding_table))
+ return get_char_id_table (XCHAR_TABLE(encoding_table),
XCHAR (character));
}
else
Qunbound);
if (!UNBOUNDP (table))
{
- Lisp_Object ret = get_char_id_table (XCHAR_ID_TABLE(table),
+ Lisp_Object ret = get_char_id_table (XCHAR_TABLE(table),
XCHAR (character));
if (!UNBOUNDP (ret))
return ret;
rest = Fcdr (rest);
if (!CONSP (rest))
{
- put_char_id_table (XCHAR_ID_TABLE(table),
+ put_char_id_table (XCHAR_TABLE(table),
make_char (c), character);
break;
}
else
{
- ntable = get_char_id_table (XCHAR_ID_TABLE(table), c);
- if (!CHAR_ID_TABLE_P (ntable))
+ ntable = get_char_id_table (XCHAR_TABLE(table), c);
+ if (!CHAR_TABLEP (ntable))
{
ntable = make_char_id_table (Qnil);
- put_char_id_table (XCHAR_ID_TABLE(table),
+ put_char_id_table (XCHAR_TABLE(table),
make_char (c), ntable);
}
table = ntable;
{
Emchar c = XINT (v);
Lisp_Object ret
- = get_char_id_table (XCHAR_ID_TABLE(Vcharacter_variant_table),
+ = get_char_id_table (XCHAR_TABLE(Vcharacter_variant_table),
c);
if (NILP (Fmemq (v, ret)))
{
- put_char_id_table (XCHAR_ID_TABLE(Vcharacter_variant_table),
+ put_char_id_table (XCHAR_TABLE(Vcharacter_variant_table),
make_char (c), Fcons (character, ret));
}
}
c = XINT (value);
- ret = get_char_id_table (XCHAR_ID_TABLE(Vcharacter_variant_table), c);
+ ret = get_char_id_table (XCHAR_TABLE(Vcharacter_variant_table), c);
if (NILP (Fmemq (character, ret)))
{
- put_char_id_table (XCHAR_ID_TABLE(Vcharacter_variant_table),
+ put_char_id_table (XCHAR_TABLE(Vcharacter_variant_table),
make_char (c), Fcons (character, ret));
}
#if 0
table = make_char_id_table (Qunbound);
Fputhash (attribute, table, Vchar_attribute_hash_table);
}
- put_char_id_table (XCHAR_ID_TABLE(table), character, value);
+ put_char_id_table (XCHAR_TABLE(table), character, value);
return value;
}
}
Qunbound);
if (!UNBOUNDP (table))
{
- put_char_id_table (XCHAR_ID_TABLE(table), character, Qunbound);
+ put_char_id_table (XCHAR_TABLE(table), character, Qunbound);
return Qt;
}
}
(function, attribute, range))
{
Lisp_Object ccs;
- Lisp_Char_ID_Table *ct;
+ Lisp_Char_Table *ct;
struct slow_map_char_table_arg slarg;
struct gcpro gcpro1, gcpro2;
struct chartab_range rainj;
{
Lisp_Object encoding_table = XCHARSET_ENCODING_TABLE (ccs);
- if (CHAR_ID_TABLE_P (encoding_table))
- ct = XCHAR_ID_TABLE (encoding_table);
+ if (CHAR_TABLEP (encoding_table))
+ ct = XCHAR_TABLE (encoding_table);
else
return Qnil;
}
Lisp_Object table = Fgethash (attribute,
Vchar_attribute_hash_table,
Qunbound);
- if (CHAR_ID_TABLE_P (table))
- ct = XCHAR_ID_TABLE (table);
+ if (CHAR_TABLEP (table))
+ ct = XCHAR_TABLE (table);
else
return Qnil;
}
slarg.function = function;
slarg.retval = Qnil;
GCPRO2 (slarg.function, slarg.retval);
- map_char_id_table (ct, &rainj, slow_map_char_table_fun, &slarg);
+ map_char_table (ct, &rainj, slow_map_char_table_fun, &slarg);
UNGCPRO;
return slarg.retval;
}
-EXFUN (Fmake_char, 3);
-EXFUN (Fdecode_char, 2);
-
DEFUN ("define-char", Fdefine_char, 1, 1, 0, /*
Store character's ATTRIBUTES.
*/
if (CONSP (cell))
character = Fmake_char (ccs, Fcar (cell), Fcar (Fcdr (cell)));
else
- character = Fdecode_char (ccs, cell);
+ character = Fdecode_char (ccs, cell, Qnil);
if (!NILP (character))
goto setup_attributes;
}
if (CONSP (cell))
return Fmake_char (ccs, Fcar (cell), Fcar (Fcdr (cell)));
else
- return Fdecode_char (ccs, cell);
+ return Fdecode_char (ccs, cell, Qnil);
}
rest = Fcdr (rest);
}
INIT_LRECORD_IMPLEMENTATION (uint8_byte_table);
INIT_LRECORD_IMPLEMENTATION (uint16_byte_table);
INIT_LRECORD_IMPLEMENTATION (byte_table);
- INIT_LRECORD_IMPLEMENTATION (char_id_table);
defsymbol (&Qto_ucs, "=>ucs");
defsymbol (&Q_ucs, "->ucs");
INIT_LRECORD_IMPLEMENTATION (char_table);
#ifdef MULE
+#ifndef UTF2000
INIT_LRECORD_IMPLEMENTATION (char_table_entry);
+#endif
defsymbol (&Qcategory_table_p, "category-table-p");
defsymbol (&Qcategory_designator_p, "category-designator-p");
vars_of_chartab (void)
{
#ifdef UTF2000
- Vutf_2000_version = build_string("0.17 (Hōryūji)");
+ Vutf_2000_version = build_string("0.18 (Yamato-Koizumi)");
DEFVAR_LISP ("utf-2000-version", &Vutf_2000_version /*
Version number of XEmacs UTF-2000.
*/ );