/* Rewritten by Ben Wing <ben@xemacs.org>. */
#include <config.h>
+#ifdef UTF2000
+#include <limits.h>
+#endif
#include "lisp.h"
#include "buffer.h"
#ifdef UTF2000
Lisp_Object Vcharset_ucs;
Lisp_Object Vcharset_ucs_bmp;
+Lisp_Object Vcharset_ucs_cns;
Lisp_Object Vcharset_latin_viscii;
Lisp_Object Vcharset_latin_tcvn5712;
Lisp_Object Vcharset_latin_viscii_lower;
Lisp_Object Vcharset_latin_viscii_upper;
+Lisp_Object Vcharset_chinese_big5;
Lisp_Object Vcharset_ideograph_daikanwa;
Lisp_Object Vcharset_mojikyo;
+Lisp_Object Vcharset_mojikyo_2022_1;
Lisp_Object Vcharset_mojikyo_pj_1;
Lisp_Object Vcharset_mojikyo_pj_2;
Lisp_Object Vcharset_mojikyo_pj_3;
struct charset_lookup *chlook;
static const struct lrecord_description charset_lookup_description_1[] = {
- { XD_LISP_OBJECT, offsetof(struct charset_lookup, charset_by_leading_byte),
+ { XD_LISP_OBJECT_ARRAY, offsetof (struct charset_lookup, charset_by_leading_byte),
#ifdef UTF2000
128+4*128
#else
};
static const struct struct_description charset_lookup_description = {
- sizeof(struct charset_lookup),
+ sizeof (struct charset_lookup),
charset_lookup_description_1
};
#ifdef UTF2000
+#define BT_UINT8_MIN 0
+#define BT_UINT8_MAX (UCHAR_MAX - 3)
+#define BT_UINT8_t (UCHAR_MAX - 2)
+#define BT_UINT8_nil (UCHAR_MAX - 1)
+#define BT_UINT8_unbound UCHAR_MAX
+
+INLINE_HEADER int INT_UINT8_P (Lisp_Object obj);
+INLINE_HEADER int UINT8_VALUE_P (Lisp_Object obj);
+INLINE_HEADER unsigned char UINT8_ENCODE (Lisp_Object obj);
+INLINE_HEADER Lisp_Object UINT8_DECODE (unsigned char n);
+INLINE_HEADER unsigned short UINT8_TO_UINT16 (unsigned char n);
+
+INLINE_HEADER int
+INT_UINT8_P (Lisp_Object obj)
+{
+ if (INTP (obj))
+ {
+ int num = XINT (obj);
+
+ return (BT_UINT8_MIN <= num) && (num <= BT_UINT8_MAX);
+ }
+ else
+ return 0;
+}
+
+INLINE_HEADER int
+UINT8_VALUE_P (Lisp_Object obj)
+{
+ return EQ (obj, Qunbound)
+ || EQ (obj, Qnil) || EQ (obj, Qt) || INT_UINT8_P (obj);
+}
+
+INLINE_HEADER unsigned char
+UINT8_ENCODE (Lisp_Object obj)
+{
+ if (EQ (obj, Qunbound))
+ return BT_UINT8_unbound;
+ else if (EQ (obj, Qnil))
+ return BT_UINT8_nil;
+ else if (EQ (obj, Qt))
+ return BT_UINT8_t;
+ else
+ return XINT (obj);
+}
+
+INLINE_HEADER Lisp_Object
+UINT8_DECODE (unsigned char n)
+{
+ if (n == BT_UINT8_unbound)
+ return Qunbound;
+ else if (n == BT_UINT8_nil)
+ return Qnil;
+ else if (n == BT_UINT8_t)
+ return Qt;
+ else
+ return make_int (n);
+}
+
static Lisp_Object
-mark_char_byte_table (Lisp_Object obj)
+mark_uint8_byte_table (Lisp_Object obj)
{
- struct Lisp_Char_Byte_Table *cte = XCHAR_BYTE_TABLE (obj);
+ return Qnil;
+}
+
+static void
+print_uint8_byte_table (Lisp_Object obj,
+ Lisp_Object printcharfun, int escapeflag)
+{
+ Lisp_Uint8_Byte_Table *bte = XUINT8_BYTE_TABLE (obj);
int i;
+ struct gcpro gcpro1, gcpro2;
+ GCPRO2 (obj, printcharfun);
+ write_c_string ("\n#<uint8-byte-table", printcharfun);
for (i = 0; i < 256; i++)
{
- mark_object (cte->property[i]);
+ unsigned char n = bte->property[i];
+ if ( (i & 15) == 0 )
+ write_c_string ("\n ", printcharfun);
+ write_c_string (" ", printcharfun);
+ if (n == BT_UINT8_unbound)
+ write_c_string ("void", printcharfun);
+ else if (n == BT_UINT8_nil)
+ write_c_string ("nil", printcharfun);
+ else if (n == BT_UINT8_t)
+ write_c_string ("t", printcharfun);
+ else
+ {
+ char buf[4];
+
+ sprintf (buf, "%hd", n);
+ write_c_string (buf, printcharfun);
+ }
}
- return Qnil;
+ UNGCPRO;
+ write_c_string (">", printcharfun);
}
static int
-char_byte_table_equal (Lisp_Object obj1, Lisp_Object obj2, int depth)
+uint8_byte_table_equal (Lisp_Object obj1, Lisp_Object obj2, int depth)
{
- struct Lisp_Char_Byte_Table *cte1 = XCHAR_BYTE_TABLE (obj1);
- struct Lisp_Char_Byte_Table *cte2 = XCHAR_BYTE_TABLE (obj2);
+ Lisp_Uint8_Byte_Table *te1 = XUINT8_BYTE_TABLE (obj1);
+ Lisp_Uint8_Byte_Table *te2 = XUINT8_BYTE_TABLE (obj2);
int i;
for (i = 0; i < 256; i++)
- if (CHAR_BYTE_TABLE_P (cte1->property[i]))
- {
- if (CHAR_BYTE_TABLE_P (cte2->property[i]))
- {
- if (!char_byte_table_equal (cte1->property[i],
- cte2->property[i], depth + 1))
- return 0;
- }
- else
- return 0;
- }
- else
- if (!internal_equal (cte1->property[i], cte2->property[i], depth + 1))
- return 0;
+ if (te1->property[i] != te2->property[i])
+ return 0;
return 1;
}
static unsigned long
-char_byte_table_hash (Lisp_Object obj, int depth)
+uint8_byte_table_hash (Lisp_Object obj, int depth)
{
- struct Lisp_Char_Byte_Table *cte = XCHAR_BYTE_TABLE (obj);
+ Lisp_Uint8_Byte_Table *te = XUINT8_BYTE_TABLE (obj);
+ int i;
+ hashcode_t hash = 0;
- return internal_array_hash (cte->property, 256, depth);
+ for (i = 0; i < 256; i++)
+ hash = HASH2 (hash, te->property[i]);
+ return hash;
}
-static const struct lrecord_description char_byte_table_description[] = {
- { XD_LISP_OBJECT, offsetof(struct Lisp_Char_Byte_Table, property), 256 },
- { XD_END }
-};
-
-DEFINE_LRECORD_IMPLEMENTATION ("char-byte-table", char_byte_table,
- mark_char_byte_table,
- internal_object_printer,
- 0, char_byte_table_equal,
- char_byte_table_hash,
- char_byte_table_description,
- struct Lisp_Char_Byte_Table);
+DEFINE_LRECORD_IMPLEMENTATION ("uint8-byte-table", uint8_byte_table,
+ mark_uint8_byte_table,
+ print_uint8_byte_table,
+ 0, uint8_byte_table_equal,
+ uint8_byte_table_hash,
+ 0 /* uint8_byte_table_description */,
+ Lisp_Uint8_Byte_Table);
static Lisp_Object
-make_char_byte_table (Lisp_Object initval)
+make_uint8_byte_table (unsigned char initval)
{
Lisp_Object obj;
int i;
- struct Lisp_Char_Byte_Table *cte =
- alloc_lcrecord_type (struct Lisp_Char_Byte_Table,
- &lrecord_char_byte_table);
+ Lisp_Uint8_Byte_Table *cte;
+
+ cte = alloc_lcrecord_type (Lisp_Uint8_Byte_Table,
+ &lrecord_uint8_byte_table);
for (i = 0; i < 256; i++)
cte->property[i] = initval;
- XSETCHAR_BYTE_TABLE (obj, cte);
+ XSETUINT8_BYTE_TABLE (obj, cte);
return obj;
}
+static int
+uint8_byte_table_same_value_p (Lisp_Object obj)
+{
+ Lisp_Uint8_Byte_Table *bte = XUINT8_BYTE_TABLE (obj);
+ unsigned char v0 = bte->property[0];
+ int i;
+
+ for (i = 1; i < 256; i++)
+ {
+ if (bte->property[i] != v0)
+ return 0;
+ }
+ return -1;
+}
+
+
+#define BT_UINT16_MIN 0
+#define BT_UINT16_MAX (USHRT_MAX - 3)
+#define BT_UINT16_t (USHRT_MAX - 2)
+#define BT_UINT16_nil (USHRT_MAX - 1)
+#define BT_UINT16_unbound USHRT_MAX
+
+INLINE_HEADER int INT_UINT16_P (Lisp_Object obj);
+INLINE_HEADER int UINT16_VALUE_P (Lisp_Object obj);
+INLINE_HEADER unsigned short UINT16_ENCODE (Lisp_Object obj);
+INLINE_HEADER Lisp_Object UINT16_DECODE (unsigned short us);
+
+INLINE_HEADER int
+INT_UINT16_P (Lisp_Object obj)
+{
+ if (INTP (obj))
+ {
+ int num = XINT (obj);
+
+ return (BT_UINT16_MIN <= num) && (num <= BT_UINT16_MAX);
+ }
+ else
+ return 0;
+}
+
+INLINE_HEADER int
+UINT16_VALUE_P (Lisp_Object obj)
+{
+ return EQ (obj, Qunbound)
+ || EQ (obj, Qnil) || EQ (obj, Qt) || INT_UINT16_P (obj);
+}
+
+INLINE_HEADER unsigned short
+UINT16_ENCODE (Lisp_Object obj)
+{
+ if (EQ (obj, Qunbound))
+ return BT_UINT16_unbound;
+ else if (EQ (obj, Qnil))
+ return BT_UINT16_nil;
+ else if (EQ (obj, Qt))
+ return BT_UINT16_t;
+ else
+ return XINT (obj);
+}
+
+INLINE_HEADER Lisp_Object
+UINT16_DECODE (unsigned short n)
+{
+ if (n == BT_UINT16_unbound)
+ return Qunbound;
+ else if (n == BT_UINT16_nil)
+ return Qnil;
+ else if (n == BT_UINT16_t)
+ return Qt;
+ else
+ return make_int (n);
+}
+
+INLINE_HEADER unsigned short
+UINT8_TO_UINT16 (unsigned char n)
+{
+ if (n == BT_UINT8_unbound)
+ return BT_UINT16_unbound;
+ else if (n == BT_UINT8_nil)
+ return BT_UINT16_nil;
+ else if (n == BT_UINT8_t)
+ return BT_UINT16_t;
+ else
+ return n;
+}
+
static Lisp_Object
-copy_char_byte_table (Lisp_Object entry)
+mark_uint16_byte_table (Lisp_Object obj)
{
- struct Lisp_Char_Byte_Table *cte = XCHAR_BYTE_TABLE (entry);
- Lisp_Object obj;
+ return Qnil;
+}
+
+static void
+print_uint16_byte_table (Lisp_Object obj,
+ Lisp_Object printcharfun, int escapeflag)
+{
+ Lisp_Uint16_Byte_Table *bte = XUINT16_BYTE_TABLE (obj);
int i;
- struct Lisp_Char_Byte_Table *ctenew =
- alloc_lcrecord_type (struct Lisp_Char_Byte_Table,
- &lrecord_char_byte_table);
+ struct gcpro gcpro1, gcpro2;
+ GCPRO2 (obj, printcharfun);
+ write_c_string ("\n#<uint16-byte-table", printcharfun);
for (i = 0; i < 256; i++)
{
- Lisp_Object new = cte->property[i];
- if (CHAR_BYTE_TABLE_P (new))
- ctenew->property[i] = copy_char_byte_table (new);
+ unsigned short n = bte->property[i];
+ if ( (i & 15) == 0 )
+ write_c_string ("\n ", printcharfun);
+ write_c_string (" ", printcharfun);
+ if (n == BT_UINT16_unbound)
+ write_c_string ("void", printcharfun);
+ else if (n == BT_UINT16_nil)
+ write_c_string ("nil", printcharfun);
+ else if (n == BT_UINT16_t)
+ write_c_string ("t", printcharfun);
else
- ctenew->property[i] = new;
+ {
+ char buf[7];
+
+ sprintf (buf, "%hd", n);
+ write_c_string (buf, printcharfun);
+ }
}
+ UNGCPRO;
+ write_c_string (">", printcharfun);
+}
+
+static int
+uint16_byte_table_equal (Lisp_Object obj1, Lisp_Object obj2, int depth)
+{
+ Lisp_Uint16_Byte_Table *te1 = XUINT16_BYTE_TABLE (obj1);
+ Lisp_Uint16_Byte_Table *te2 = XUINT16_BYTE_TABLE (obj2);
+ int i;
+
+ for (i = 0; i < 256; i++)
+ if (te1->property[i] != te2->property[i])
+ return 0;
+ return 1;
+}
+
+static unsigned long
+uint16_byte_table_hash (Lisp_Object obj, int depth)
+{
+ Lisp_Uint16_Byte_Table *te = XUINT16_BYTE_TABLE (obj);
+ int i;
+ hashcode_t hash = 0;
+
+ for (i = 0; i < 256; i++)
+ hash = HASH2 (hash, te->property[i]);
+ return hash;
+}
+
+DEFINE_LRECORD_IMPLEMENTATION ("uint16-byte-table", uint16_byte_table,
+ mark_uint16_byte_table,
+ print_uint16_byte_table,
+ 0, uint16_byte_table_equal,
+ uint16_byte_table_hash,
+ 0 /* uint16_byte_table_description */,
+ Lisp_Uint16_Byte_Table);
+
+static Lisp_Object
+make_uint16_byte_table (unsigned short initval)
+{
+ Lisp_Object obj;
+ int i;
+ Lisp_Uint16_Byte_Table *cte;
+
+ cte = alloc_lcrecord_type (Lisp_Uint16_Byte_Table,
+ &lrecord_uint16_byte_table);
+
+ for (i = 0; i < 256; i++)
+ cte->property[i] = initval;
- XSETCHAR_BYTE_TABLE (obj, ctenew);
+ XSETUINT16_BYTE_TABLE (obj, cte);
return obj;
}
+static Lisp_Object
+expand_uint8_byte_table_to_uint16 (Lisp_Object table)
+{
+ Lisp_Object obj;
+ int i;
+ Lisp_Uint8_Byte_Table* bte = XUINT8_BYTE_TABLE(table);
+ Lisp_Uint16_Byte_Table* cte;
+
+ cte = alloc_lcrecord_type (Lisp_Uint16_Byte_Table,
+ &lrecord_uint16_byte_table);
+ for (i = 0; i < 256; i++)
+ {
+ cte->property[i] = UINT8_TO_UINT16 (bte->property[i]);
+ }
+ XSETUINT16_BYTE_TABLE (obj, cte);
+ return obj;
+}
+
+static int
+uint16_byte_table_same_value_p (Lisp_Object obj)
+{
+ Lisp_Uint16_Byte_Table *bte = XUINT16_BYTE_TABLE (obj);
+ unsigned short v0 = bte->property[0];
+ int i;
+
+ for (i = 1; i < 256; i++)
+ {
+ if (bte->property[i] != v0)
+ return 0;
+ }
+ return -1;
+}
+
static Lisp_Object
-mark_char_code_table (Lisp_Object obj)
+mark_byte_table (Lisp_Object obj)
{
- struct Lisp_Char_Code_Table *cte = XCHAR_CODE_TABLE (obj);
+ Lisp_Byte_Table *cte = XBYTE_TABLE (obj);
+ int i;
- return cte->table;
+ for (i = 0; i < 256; i++)
+ {
+ mark_object (cte->property[i]);
+ }
+ return Qnil;
+}
+
+static void
+print_byte_table (Lisp_Object obj, Lisp_Object printcharfun, int escapeflag)
+{
+ Lisp_Byte_Table *bte = XBYTE_TABLE (obj);
+ int i;
+ struct gcpro gcpro1, gcpro2;
+ GCPRO2 (obj, printcharfun);
+
+ write_c_string ("\n#<byte-table", printcharfun);
+ for (i = 0; i < 256; i++)
+ {
+ Lisp_Object elt = bte->property[i];
+ if ( (i & 15) == 0 )
+ write_c_string ("\n ", printcharfun);
+ write_c_string (" ", printcharfun);
+ if (EQ (elt, Qunbound))
+ write_c_string ("void", printcharfun);
+ else
+ print_internal (elt, printcharfun, escapeflag);
+ }
+ UNGCPRO;
+ write_c_string (">", printcharfun);
}
static int
-char_code_table_equal (Lisp_Object obj1, Lisp_Object obj2, int depth)
+byte_table_equal (Lisp_Object obj1, Lisp_Object obj2, int depth)
{
- struct Lisp_Char_Code_Table *cte1 = XCHAR_CODE_TABLE (obj1);
- struct Lisp_Char_Code_Table *cte2 = XCHAR_CODE_TABLE (obj2);
+ Lisp_Byte_Table *cte1 = XBYTE_TABLE (obj1);
+ Lisp_Byte_Table *cte2 = XBYTE_TABLE (obj2);
+ int i;
- return char_byte_table_equal (cte1->table, cte2->table, depth + 1);
+ for (i = 0; i < 256; i++)
+ if (BYTE_TABLE_P (cte1->property[i]))
+ {
+ if (BYTE_TABLE_P (cte2->property[i]))
+ {
+ if (!byte_table_equal (cte1->property[i],
+ cte2->property[i], depth + 1))
+ return 0;
+ }
+ else
+ return 0;
+ }
+ else
+ if (!internal_equal (cte1->property[i], cte2->property[i], depth + 1))
+ return 0;
+ return 1;
}
static unsigned long
-char_code_table_hash (Lisp_Object obj, int depth)
+byte_table_hash (Lisp_Object obj, int depth)
{
- struct Lisp_Char_Code_Table *cte = XCHAR_CODE_TABLE (obj);
+ Lisp_Byte_Table *cte = XBYTE_TABLE (obj);
- return char_code_table_hash (cte->table, depth + 1);
+ return internal_array_hash (cte->property, 256, depth);
}
-static const struct lrecord_description char_code_table_description[] = {
- { XD_LISP_OBJECT, offsetof(struct Lisp_Char_Code_Table, table), 1 },
+static const struct lrecord_description byte_table_description[] = {
+ { XD_LISP_OBJECT_ARRAY, offsetof(Lisp_Byte_Table, property), 256 },
{ XD_END }
};
-DEFINE_LRECORD_IMPLEMENTATION ("char-code-table", char_code_table,
- mark_char_code_table,
- internal_object_printer,
- 0, char_code_table_equal,
- char_code_table_hash,
- char_code_table_description,
- struct Lisp_Char_Code_Table);
+DEFINE_LRECORD_IMPLEMENTATION ("byte-table", byte_table,
+ mark_byte_table,
+ print_byte_table,
+ 0, byte_table_equal,
+ byte_table_hash,
+ byte_table_description,
+ Lisp_Byte_Table);
static Lisp_Object
-make_char_code_table (Lisp_Object initval)
+make_byte_table (Lisp_Object initval)
{
Lisp_Object obj;
- struct Lisp_Char_Code_Table *cte =
- alloc_lcrecord_type (struct Lisp_Char_Code_Table,
- &lrecord_char_code_table);
+ int i;
+ Lisp_Byte_Table *cte;
- cte->table = make_char_byte_table (initval);
+ cte = alloc_lcrecord_type (Lisp_Byte_Table, &lrecord_byte_table);
- XSETCHAR_CODE_TABLE (obj, cte);
+ for (i = 0; i < 256; i++)
+ cte->property[i] = initval;
+
+ XSETBYTE_TABLE (obj, cte);
return obj;
}
-static Lisp_Object
-copy_char_code_table (Lisp_Object entry)
+static int
+byte_table_same_value_p (Lisp_Object obj)
{
- struct Lisp_Char_Code_Table *cte = XCHAR_CODE_TABLE (entry);
- Lisp_Object obj;
- struct Lisp_Char_Code_Table *ctenew =
- alloc_lcrecord_type (struct Lisp_Char_Code_Table,
- &lrecord_char_code_table);
+ Lisp_Byte_Table *bte = XBYTE_TABLE (obj);
+ Lisp_Object v0 = bte->property[0];
+ int i;
- ctenew->table = copy_char_byte_table (cte->table);
- XSETCHAR_CODE_TABLE (obj, ctenew);
- return obj;
+ for (i = 1; i < 256; i++)
+ {
+ if (!internal_equal (bte->property[i], v0, 0))
+ return 0;
+ }
+ return -1;
}
-Lisp_Object
-get_char_code_table (Emchar ch, Lisp_Object table)
-{
- unsigned int code = ch;
- struct Lisp_Char_Byte_Table* cpt
- = XCHAR_BYTE_TABLE (XCHAR_CODE_TABLE (table)->table);
- Lisp_Object ret = cpt->property [(unsigned char)(code >> 24)];
-
- if (CHAR_BYTE_TABLE_P (ret))
- cpt = XCHAR_BYTE_TABLE (ret);
- else
- return ret;
+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);
- ret = cpt->property [(unsigned char) (code >> 16)];
- if (CHAR_BYTE_TABLE_P (ret))
- cpt = XCHAR_BYTE_TABLE (ret);
- else
- return ret;
-
- ret = cpt->property [(unsigned char) (code >> 8)];
- if (CHAR_BYTE_TABLE_P (ret))
- cpt = XCHAR_BYTE_TABLE (ret);
+Lisp_Object
+get_byte_table (Lisp_Object table, unsigned char idx)
+{
+ if (UINT8_BYTE_TABLE_P (table))
+ return UINT8_DECODE (XUINT8_BYTE_TABLE(table)->property[idx]);
+ else if (UINT16_BYTE_TABLE_P (table))
+ return UINT16_DECODE (XUINT16_BYTE_TABLE(table)->property[idx]);
+ else if (BYTE_TABLE_P (table))
+ return XBYTE_TABLE(table)->property[idx];
else
- return ret;
-
- return cpt->property [(unsigned char) code];
+ return table;
}
-void
-put_char_code_table (Emchar ch, Lisp_Object value, Lisp_Object table)
+Lisp_Object
+put_byte_table (Lisp_Object table, unsigned char idx, Lisp_Object value)
{
- unsigned int code = ch;
- struct Lisp_Char_Byte_Table* cpt1
- = XCHAR_BYTE_TABLE (XCHAR_CODE_TABLE (table)->table);
- Lisp_Object ret = cpt1->property[(unsigned char)(code >> 24)];
+ if (UINT8_BYTE_TABLE_P (table))
+ {
+ if (UINT8_VALUE_P (value))
+ {
+ XUINT8_BYTE_TABLE(table)->property[idx] = UINT8_ENCODE (value);
+ if (!UINT8_BYTE_TABLE_P (value) &&
+ !UINT16_BYTE_TABLE_P (value) && !BYTE_TABLE_P (value)
+ && uint8_byte_table_same_value_p (table))
+ {
+ return value;
+ }
+ }
+ else if (UINT16_VALUE_P (value))
+ {
+ Lisp_Object new = expand_uint8_byte_table_to_uint16 (table);
- if (CHAR_BYTE_TABLE_P (ret))
+ XUINT16_BYTE_TABLE(new)->property[idx] = UINT16_ENCODE (value);
+ return new;
+ }
+ else
+ {
+ Lisp_Object new = make_byte_table (Qnil);
+ int i;
+
+ for (i = 0; i < 256; i++)
+ {
+ XBYTE_TABLE(new)->property[i]
+ = UINT8_DECODE (XUINT8_BYTE_TABLE(table)->property[i]);
+ }
+ XBYTE_TABLE(new)->property[idx] = value;
+ return new;
+ }
+ }
+ else if (UINT16_BYTE_TABLE_P (table))
{
- struct Lisp_Char_Byte_Table* cpt2 = XCHAR_BYTE_TABLE (ret);
-
- ret = cpt2->property[(unsigned char)(code >> 16)];
- if (CHAR_BYTE_TABLE_P (ret))
+ if (UINT16_VALUE_P (value))
{
- struct Lisp_Char_Byte_Table* cpt3 = XCHAR_BYTE_TABLE (ret);
-
- ret = cpt3->property[(unsigned char)(code >> 8)];
- if (CHAR_BYTE_TABLE_P (ret))
+ XUINT16_BYTE_TABLE(table)->property[idx] = UINT16_ENCODE (value);
+ if (!UINT8_BYTE_TABLE_P (value) &&
+ !UINT16_BYTE_TABLE_P (value) && !BYTE_TABLE_P (value)
+ && uint16_byte_table_same_value_p (table))
{
- struct Lisp_Char_Byte_Table* cpt4
- = XCHAR_BYTE_TABLE (ret);
-
- cpt4->property[(unsigned char)code] = value;
+ return value;
}
- else if (!EQ (ret, value))
+ }
+ else
+ {
+ Lisp_Object new = make_byte_table (Qnil);
+ int i;
+
+ for (i = 0; i < 256; i++)
{
- Lisp_Object cpt4 = make_char_byte_table (ret);
-
- XCHAR_BYTE_TABLE(cpt4)->property[(unsigned char)code] = value;
- cpt3->property[(unsigned char)(code >> 8)] = cpt4;
+ XBYTE_TABLE(new)->property[i]
+ = UINT16_DECODE (XUINT16_BYTE_TABLE(table)->property[i]);
}
+ XBYTE_TABLE(new)->property[idx] = value;
+ return new;
+ }
+ }
+ else if (BYTE_TABLE_P (table))
+ {
+ XBYTE_TABLE(table)->property[idx] = value;
+ if (!UINT8_BYTE_TABLE_P (value) &&
+ !UINT16_BYTE_TABLE_P (value) && !BYTE_TABLE_P (value)
+ && byte_table_same_value_p (table))
+ {
+ return value;
+ }
+ }
+ else if (!internal_equal (table, value, 0))
+ {
+ if (UINT8_VALUE_P (table) && UINT8_VALUE_P (value))
+ {
+ table = make_uint8_byte_table (UINT8_ENCODE (table));
+ XUINT8_BYTE_TABLE(table)->property[idx] = UINT8_ENCODE (value);
+ }
+ else if (UINT16_VALUE_P (table) && UINT16_VALUE_P (value))
+ {
+ table = make_uint16_byte_table (UINT16_ENCODE (table));
+ XUINT16_BYTE_TABLE(table)->property[idx] = UINT16_ENCODE (value);
}
- else if (!EQ (ret, value))
+ else
{
- Lisp_Object cpt3 = make_char_byte_table (ret);
- Lisp_Object cpt4 = make_char_byte_table (ret);
-
- XCHAR_BYTE_TABLE(cpt4)->property[(unsigned char)code] = value;
- XCHAR_BYTE_TABLE(cpt3)->property[(unsigned char)(code >> 8)]
- = cpt4;
- cpt2->property[(unsigned char)(code >> 16)] = cpt3;
+ table = make_byte_table (table);
+ XBYTE_TABLE(table)->property[idx] = value;
}
}
- else if (!EQ (ret, value))
+ 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++)
{
- Lisp_Object cpt2 = make_char_byte_table (ret);
- Lisp_Object cpt3 = make_char_byte_table (ret);
- Lisp_Object cpt4 = make_char_byte_table (ret);
-
- XCHAR_BYTE_TABLE(cpt4)->property[(unsigned char)code] = value;
- XCHAR_BYTE_TABLE(cpt3)->property[(unsigned char)(code >> 8)] = cpt4;
- XCHAR_BYTE_TABLE(cpt2)->property[(unsigned char)(code >> 16)] = cpt3;
- cpt1->property[(unsigned char)(code >> 24)] = cpt2;
+ 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);
+
+static 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);
+ return obj;
}
-Lisp_Object Vcharacter_attribute_table;
+Lisp_Object
+get_char_id_table (Emchar ch, Lisp_Object table)
+{
+ unsigned int code = ch;
+
+ return
+ get_byte_table
+ (get_byte_table
+ (get_byte_table
+ (get_byte_table
+ (XCHAR_ID_TABLE (table)->table,
+ (unsigned char)(code >> 24)),
+ (unsigned char) (code >> 16)),
+ (unsigned char) (code >> 8)),
+ (unsigned char) code);
+}
+
+void put_char_id_table (Emchar ch, Lisp_Object value, Lisp_Object table);
+void
+put_char_id_table (Emchar ch, Lisp_Object value, Lisp_Object table)
+{
+ unsigned int code = ch;
+ Lisp_Object table1, table2, table3, table4;
+
+ table1 = XCHAR_ID_TABLE (table)->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);
+ XCHAR_ID_TABLE (table)->table
+ = put_byte_table (table1, (unsigned char)(code >> 24), table2);
+}
+
+
+Lisp_Object Vchar_attribute_hash_table;
Lisp_Object Vcharacter_composition_table;
Lisp_Object Vcharacter_variant_table;
+Lisp_Object Qideograph_daikanwa;
Lisp_Object Q_decomposition;
+Lisp_Object Qucs;
Lisp_Object Q_ucs;
Lisp_Object Qcompat;
Lisp_Object Qisolated;
Lisp_Object Qsmall;
Lisp_Object Qfont;
+Emchar to_char_id (Lisp_Object v, char* err_msg, Lisp_Object err_arg);
+
+Lisp_Object put_char_ccs_code_point (Lisp_Object character,
+ Lisp_Object ccs, Lisp_Object value);
+Lisp_Object remove_char_ccs (Lisp_Object character, Lisp_Object ccs);
+
Emchar
-to_char_code (Lisp_Object v, char* err_msg, Lisp_Object err_arg)
+to_char_id (Lisp_Object v, char* err_msg, Lisp_Object err_arg)
{
if (INTP (v))
return XINT (v);
{
Lisp_Object v = Fcar (rest);
Lisp_Object ret;
- Emchar c = to_char_code (v, "Invalid value for composition", list);
+ Emchar c = to_char_id (v, "Invalid value for composition", list);
- ret = get_char_code_table (c, table);
+ ret = get_char_id_table (c, table);
rest = Fcdr (rest);
if (NILP (rest))
{
- if (!CHAR_CODE_TABLE_P (ret))
+ if (!CHAR_ID_TABLE_P (ret))
return ret;
else
return Qt;
}
else if (!CONSP (rest))
break;
- else if (CHAR_CODE_TABLE_P (ret))
+ else if (CHAR_ID_TABLE_P (ret))
table = ret;
else
signal_simple_error ("Invalid table is found with", list);
(character))
{
CHECK_CHAR (character);
- return Fcopy_list (get_char_code_table (XCHAR (character),
- Vcharacter_variant_table));
+ return Fcopy_list (get_char_id_table (XCHAR (character),
+ Vcharacter_variant_table));
}
-DEFUN ("char-attribute-alist", Fchar_attribute_alist, 1, 1, 0, /*
-Return the alist of attributes of CHARACTER.
+
+/* We store the char-attributes in hash tables with the names as the
+ key and the actual char-id-table object as the value. Occasionally
+ we need to use them in a list format. These routines provide us
+ with that. */
+struct char_attribute_list_closure
+{
+ Lisp_Object *char_attribute_list;
+};
+
+static int
+add_char_attribute_to_list_mapper (Lisp_Object key, Lisp_Object value,
+ void *char_attribute_list_closure)
+{
+ /* This function can GC */
+ struct char_attribute_list_closure *calcl
+ = (struct char_attribute_list_closure*) char_attribute_list_closure;
+ Lisp_Object *char_attribute_list = calcl->char_attribute_list;
+
+ *char_attribute_list = Fcons (key, *char_attribute_list);
+ return 0;
+}
+
+DEFUN ("char-attribute-list", Fchar_attribute_list, 0, 0, 0, /*
+Return the list of all existing character attributes except coded-charsets.
*/
- (character))
+ ())
{
- CHECK_CHAR (character);
- return Fcopy_alist (get_char_code_table (XCHAR (character),
- Vcharacter_attribute_table));
+ Lisp_Object char_attribute_list = Qnil;
+ struct gcpro gcpro1;
+ struct char_attribute_list_closure char_attribute_list_closure;
+
+ GCPRO1 (char_attribute_list);
+ char_attribute_list_closure.char_attribute_list = &char_attribute_list;
+ elisp_maphash (add_char_attribute_to_list_mapper,
+ Vchar_attribute_hash_table,
+ &char_attribute_list_closure);
+ UNGCPRO;
+ return char_attribute_list;
}
-DEFUN ("get-char-attribute", Fget_char_attribute, 2, 2, 0, /*
-Return the value of CHARACTER's ATTRIBUTE.
+DEFUN ("find-char-attribute-table", Ffind_char_attribute_table, 1, 1, 0, /*
+Return char-id-table corresponding to ATTRIBUTE.
*/
- (character, attribute))
+ (attribute))
{
- Lisp_Object ret;
- Lisp_Object ccs;
+ return Fgethash (attribute, Vchar_attribute_hash_table, Qnil);
+}
- CHECK_CHAR (character);
- ret = get_char_code_table (XCHAR (character),
- Vcharacter_attribute_table);
- if (EQ (ret, Qnil))
- return Qnil;
- if (!NILP (ccs = Ffind_charset (attribute)))
- attribute = ccs;
+/* We store the char-id-tables in hash tables with the attributes as
+ the key and the actual char-id-table object as the value. Each
+ char-id-table stores values of an attribute corresponding with
+ characters. Occasionally we need to get attributes of a character
+ in a association-list format. These routines provide us with
+ that. */
+struct char_attribute_alist_closure
+{
+ Emchar char_id;
+ Lisp_Object *char_attribute_alist;
+};
- return Fcdr (Fassq (attribute, ret));
+static int
+add_char_attribute_alist_mapper (Lisp_Object key, Lisp_Object value,
+ void *char_attribute_alist_closure)
+{
+ /* 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 (caacl->char_id, value);
+ if (!UNBOUNDP (ret))
+ {
+ Lisp_Object *char_attribute_alist = caacl->char_attribute_alist;
+ *char_attribute_alist
+ = Fcons (Fcons (key, ret), *char_attribute_alist);
+ }
+ return 0;
}
-Lisp_Object
-put_char_attribute (Lisp_Object character, Lisp_Object attribute,
- Lisp_Object value)
+DEFUN ("char-attribute-alist", Fchar_attribute_alist, 1, 1, 0, /*
+Return the alist of attributes of CHARACTER.
+*/
+ (character))
{
- Emchar char_code = XCHAR (character);
- Lisp_Object ret
- = get_char_code_table (char_code, Vcharacter_attribute_table);
- Lisp_Object cell;
+ Lisp_Object alist = Qnil;
+ int i;
- cell = Fassq (attribute, ret);
+ CHECK_CHAR (character);
+ {
+ struct gcpro gcpro1;
+ struct char_attribute_alist_closure char_attribute_alist_closure;
+
+ GCPRO1 (alist);
+ char_attribute_alist_closure.char_id = XCHAR (character);
+ char_attribute_alist_closure.char_attribute_alist = &alist;
+ elisp_maphash (add_char_attribute_alist_mapper,
+ Vchar_attribute_hash_table,
+ &char_attribute_alist_closure);
+ UNGCPRO;
+ }
- if (NILP (cell))
- {
- ret = Fcons (Fcons (attribute, value), ret);
- }
- else if (!EQ (Fcdr (cell), value))
+ for (i = 0; i < countof (chlook->charset_by_leading_byte); i++)
{
- Fsetcdr (cell, value);
+ Lisp_Object ccs = chlook->charset_by_leading_byte[i];
+
+ if (!NILP (ccs))
+ {
+ Lisp_Object encoding_table = XCHARSET_ENCODING_TABLE (ccs);
+ Lisp_Object cpos;
+
+ if ( CHAR_ID_TABLE_P (encoding_table)
+ && INTP (cpos = get_char_id_table (XCHAR (character),
+ encoding_table)) )
+ {
+ alist = Fcons (Fcons (ccs, cpos), alist);
+ }
+ }
}
- put_char_code_table (char_code, ret, Vcharacter_attribute_table);
- return ret;
+ return alist;
}
-Lisp_Object
-remove_char_attribute (Lisp_Object character, Lisp_Object attribute)
+DEFUN ("get-char-attribute", Fget_char_attribute, 2, 3, 0, /*
+Return the value of CHARACTER's ATTRIBUTE.
+Return DEFAULT-VALUE if the value is not exist.
+*/
+ (character, attribute, default_value))
{
- Emchar char_code = XCHAR (character);
- Lisp_Object alist
- = get_char_code_table (char_code, Vcharacter_attribute_table);
+ Lisp_Object ccs;
- if (EQ (attribute, Fcar (Fcar (alist))))
+ CHECK_CHAR (character);
+ if (!NILP (ccs = Ffind_charset (attribute)))
{
- alist = Fcdr (alist);
+ Lisp_Object encoding_table = XCHARSET_ENCODING_TABLE (ccs);
+
+ if (CHAR_ID_TABLE_P (encoding_table))
+ return get_char_id_table (XCHAR (character), encoding_table);
}
else
{
- Lisp_Object pr = alist;
- Lisp_Object r = Fcdr (alist);
-
- while (!NILP (r))
+ Lisp_Object table = Fgethash (attribute,
+ Vchar_attribute_hash_table,
+ Qunbound);
+ if (!UNBOUNDP (table))
{
- if (EQ (attribute, Fcar (Fcar (r))))
- {
- XCDR (pr) = Fcdr (r);
- break;
- }
- pr = r;
- r = Fcdr (r);
+ Lisp_Object ret = get_char_id_table (XCHAR (character), table);
+ if (!UNBOUNDP (ret))
+ return ret;
}
}
- put_char_code_table (char_code, alist, Vcharacter_attribute_table);
- return alist;
+ return default_value;
}
-Lisp_Object Qucs;
-
DEFUN ("put-char-attribute", Fput_char_attribute, 3, 3, 0, /*
Store CHARACTER's ATTRIBUTE with VALUE.
*/
ccs = Ffind_charset (attribute);
if (!NILP (ccs))
{
- if (!EQ (XCHARSET_NAME (ccs), Qucs)
- || (XCHAR (character) != XINT (value)))
- {
- Lisp_Object cpos, rest;
- Lisp_Object v = XCHARSET_DECODING_TABLE (ccs);
- Lisp_Object nv;
- int i = -1;
- int ccs_len;
- int dim;
- int code_point;
-
- /* ad-hoc method for `ascii' */
- if ((XCHARSET_CHARS (ccs) == 94) &&
- (XCHARSET_BYTE_OFFSET (ccs) != 33))
- ccs_len = 128 - XCHARSET_BYTE_OFFSET (ccs);
- else
- ccs_len = XCHARSET_CHARS (ccs);
-
- if (CONSP (value))
- {
- Lisp_Object ret = Fcar (value);
-
- if (!INTP (ret))
- signal_simple_error ("Invalid value for coded-charset", value);
- code_point = XINT (ret);
- if (XCHARSET_GRAPHIC (ccs) == 1)
- code_point &= 0x7F;
- rest = Fcdr (value);
- while (!NILP (rest))
- {
- int i;
-
- if (!CONSP (rest))
- signal_simple_error ("Invalid value for coded-charset",
- value);
- ret = Fcar (rest);
- if (!INTP (ret))
- signal_simple_error ("Invalid value for coded-charset",
- value);
- i = XINT (ret);
- if (XCHARSET_GRAPHIC (ccs) == 1)
- i &= 0x7F;
- code_point = (code_point << 8) | i;
- rest = Fcdr (rest);
- }
- value = make_int (code_point);
- }
- else if (INTP (value))
- {
- if (XCHARSET_GRAPHIC (ccs) == 1)
- value = make_int (XINT (value) & 0x7F7F7F7F);
- }
- else
- signal_simple_error ("Invalid value for coded-charset", value);
-
- attribute = ccs;
- cpos = Fget_char_attribute (character, attribute);
- if (VECTORP (v))
- {
- if (!NILP (cpos))
- {
- dim = XCHARSET_DIMENSION (ccs);
- code_point = XINT (cpos);
- while (dim > 0)
- {
- dim--;
- i = ((code_point >> (8 * dim)) & 255)
- - XCHARSET_BYTE_OFFSET (ccs);
- nv = XVECTOR_DATA(v)[i];
- if (!VECTORP (nv))
- break;
- v = nv;
- }
- if (i >= 0)
- XVECTOR_DATA(v)[i] = Qnil;
- v = XCHARSET_DECODING_TABLE (ccs);
- }
- }
- else
- {
- XCHARSET_DECODING_TABLE (ccs) = v = make_vector (ccs_len, Qnil);
- }
-
- dim = XCHARSET_DIMENSION (ccs);
- code_point = XINT (value);
- i = -1;
- while (dim > 0)
- {
- dim--;
- i = ((code_point >> (8 * dim)) & 255)
- - XCHARSET_BYTE_OFFSET (ccs);
- nv = XVECTOR_DATA(v)[i];
- if (dim > 0)
- {
- if (!VECTORP (nv))
- nv = (XVECTOR_DATA(v)[i] = make_vector (ccs_len, Qnil));
- v = nv;
- }
- else
- break;
- }
- XVECTOR_DATA(v)[i] = character;
- }
- else
- attribute = ccs;
+ return put_char_ccs_code_point (character, ccs, value);
}
else if (EQ (attribute, Q_decomposition))
{
+ Lisp_Object seq;
+
if (!CONSP (value))
signal_simple_error ("Invalid value for ->decomposition",
value);
{
Lisp_Object rest = value;
Lisp_Object table = Vcharacter_composition_table;
+ size_t len;
+ int i = 0;
+
+ GET_EXTERNAL_LIST_LENGTH (rest, len);
+ seq = make_vector (len, Qnil);
while (CONSP (rest))
{
Lisp_Object v = Fcar (rest);
Lisp_Object ntable;
Emchar c
- = to_char_code (v,
- "Invalid value for ->decomposition", value);
+ = to_char_id (v, "Invalid value for ->decomposition", value);
+ if (c < 0)
+ XVECTOR_DATA(seq)[i++] = v;
+ else
+ XVECTOR_DATA(seq)[i++] = make_char (c);
rest = Fcdr (rest);
if (!CONSP (rest))
{
- put_char_code_table (c, character, table);
+ put_char_id_table (c, character, table);
break;
}
else
{
- ntable = get_char_code_table (c, table);
- if (!CHAR_CODE_TABLE_P (ntable))
+ ntable = get_char_id_table (c, table);
+ if (!CHAR_ID_TABLE_P (ntable))
{
- ntable = make_char_code_table (Qnil);
- put_char_code_table (c, ntable, table);
+ ntable = make_char_id_table (Qnil);
+ put_char_id_table (c, ntable, table);
}
table = ntable;
}
{
Emchar c = XINT (v);
Lisp_Object ret
- = get_char_code_table (c, Vcharacter_variant_table);
+ = get_char_id_table (c, Vcharacter_variant_table);
if (NILP (Fmemq (v, ret)))
{
- put_char_code_table (c, Fcons (character, ret),
- Vcharacter_variant_table);
+ put_char_id_table (c, Fcons (character, ret),
+ Vcharacter_variant_table);
}
}
+ seq = make_vector (1, v);
}
+ value = seq;
}
else if (EQ (attribute, Q_ucs))
{
c = XINT (value);
- ret = get_char_code_table (c, Vcharacter_variant_table);
+ ret = get_char_id_table (c, Vcharacter_variant_table);
if (NILP (Fmemq (character, ret)))
{
- put_char_code_table (c, Fcons (character, ret),
- Vcharacter_variant_table);
+ put_char_id_table (c, Fcons (character, ret),
+ Vcharacter_variant_table);
}
}
- return put_char_attribute (character, attribute, value);
+ {
+ Lisp_Object table = Fgethash (attribute,
+ Vchar_attribute_hash_table,
+ Qnil);
+
+ if (NILP (table))
+ {
+ table = make_char_id_table (Qunbound);
+ Fputhash (attribute, table, Vchar_attribute_hash_table);
+ }
+ put_char_id_table (XCHAR (character), value, table);
+ return value;
+ }
}
DEFUN ("remove-char-attribute", Fremove_char_attribute, 2, 2, 0, /*
ccs = Ffind_charset (attribute);
if (!NILP (ccs))
{
- Lisp_Object cpos;
- Lisp_Object v = XCHARSET_DECODING_TABLE (ccs);
+ return remove_char_ccs (character, ccs);
+ }
+ else
+ {
+ Lisp_Object table = Fgethash (attribute,
+ Vchar_attribute_hash_table,
+ Qunbound);
+ if (!UNBOUNDP (table))
+ {
+ put_char_id_table (XCHAR (character), Qunbound, table);
+ return Qt;
+ }
+ }
+ return Qnil;
+}
+
+INLINE_HEADER int CHARSET_BYTE_SIZE (Lisp_Charset* cs);
+INLINE_HEADER int
+CHARSET_BYTE_SIZE (Lisp_Charset* cs)
+{
+ /* ad-hoc method for `ascii' */
+ if ((CHARSET_CHARS (cs) == 94) &&
+ (CHARSET_BYTE_OFFSET (cs) != 33))
+ return 128 - CHARSET_BYTE_OFFSET (cs);
+ else
+ return CHARSET_CHARS (cs);
+}
+
+#define XCHARSET_BYTE_SIZE(ccs) CHARSET_BYTE_SIZE (XCHARSET (ccs))
+
+int decoding_table_check_elements (Lisp_Object v, int dim, int ccs_len);
+int
+decoding_table_check_elements (Lisp_Object v, int dim, int ccs_len)
+{
+ int i;
+
+ if (XVECTOR_LENGTH (v) > ccs_len)
+ return -1;
+
+ for (i = 0; i < XVECTOR_LENGTH (v); i++)
+ {
+ Lisp_Object c = XVECTOR_DATA(v)[i];
+
+ if (!NILP (c) && !CHARP (c))
+ {
+ if (VECTORP (c))
+ {
+ int ret = decoding_table_check_elements (c, dim - 1, ccs_len);
+ if (ret)
+ return ret;
+ }
+ else
+ return -2;
+ }
+ }
+ return 0;
+}
+
+INLINE_HEADER void
+decoding_table_remove_char (Lisp_Object v, int dim, int byte_offset,
+ int code_point);
+INLINE_HEADER void
+decoding_table_remove_char (Lisp_Object v, int dim, int byte_offset,
+ int code_point)
+{
+ int i = -1;
+
+ while (dim > 0)
+ {
Lisp_Object nv;
- int i = -1;
- int ccs_len;
- int dim;
+
+ dim--;
+ i = ((code_point >> (8 * dim)) & 255) - byte_offset;
+ nv = XVECTOR_DATA(v)[i];
+ if (!VECTORP (nv))
+ break;
+ v = nv;
+ }
+ if (i >= 0)
+ XVECTOR_DATA(v)[i] = Qnil;
+}
+
+INLINE_HEADER void
+decoding_table_put_char (Lisp_Object v, int dim, int byte_offset,
+ int code_point, Lisp_Object character);
+INLINE_HEADER void
+decoding_table_put_char (Lisp_Object v, int dim, int byte_offset,
+ int code_point, Lisp_Object character)
+{
+ int i = -1;
+ Lisp_Object nv;
+ int ccs_len = XVECTOR_LENGTH (v);
+
+ while (dim > 0)
+ {
+ dim--;
+ i = ((code_point >> (8 * dim)) & 255) - byte_offset;
+ nv = XVECTOR_DATA(v)[i];
+ if (dim > 0)
+ {
+ if (!VECTORP (nv))
+ nv = (XVECTOR_DATA(v)[i] = make_older_vector (ccs_len, Qnil));
+ v = nv;
+ }
+ else
+ break;
+ }
+ XVECTOR_DATA(v)[i] = character;
+}
+
+Lisp_Object
+put_char_ccs_code_point (Lisp_Object character,
+ Lisp_Object ccs, Lisp_Object value)
+{
+ Lisp_Object encoding_table;
+
+ if (!EQ (XCHARSET_NAME (ccs), Qucs)
+ || (XCHAR (character) != XINT (value)))
+ {
+ Lisp_Object v = XCHARSET_DECODING_TABLE (ccs);
+ int dim = XCHARSET_DIMENSION (ccs);
+ int ccs_len = XCHARSET_BYTE_SIZE (ccs);
+ int byte_offset = XCHARSET_BYTE_OFFSET (ccs);
int code_point;
-
- /* ad-hoc method for `ascii' */
- if ((XCHARSET_CHARS (ccs) == 94) &&
- (XCHARSET_BYTE_OFFSET (ccs) != 33))
- ccs_len = 128 - XCHARSET_BYTE_OFFSET (ccs);
+
+ if (CONSP (value))
+ { /* obsolete representation: value must be a list of bytes */
+ Lisp_Object ret = Fcar (value);
+ Lisp_Object rest;
+
+ if (!INTP (ret))
+ signal_simple_error ("Invalid value for coded-charset", value);
+ code_point = XINT (ret);
+ if (XCHARSET_GRAPHIC (ccs) == 1)
+ code_point &= 0x7F;
+ rest = Fcdr (value);
+ while (!NILP (rest))
+ {
+ int j;
+
+ if (!CONSP (rest))
+ signal_simple_error ("Invalid value for coded-charset",
+ value);
+ ret = Fcar (rest);
+ if (!INTP (ret))
+ signal_simple_error ("Invalid value for coded-charset",
+ value);
+ j = XINT (ret);
+ if (XCHARSET_GRAPHIC (ccs) == 1)
+ j &= 0x7F;
+ code_point = (code_point << 8) | j;
+ rest = Fcdr (rest);
+ }
+ value = make_int (code_point);
+ }
+ else if (INTP (value))
+ {
+ code_point = XINT (value);
+ if (XCHARSET_GRAPHIC (ccs) == 1)
+ {
+ code_point &= 0x7F7F7F7F;
+ value = make_int (code_point);
+ }
+ }
else
- ccs_len = XCHARSET_CHARS (ccs);
+ signal_simple_error ("Invalid value for coded-charset", value);
- attribute = ccs;
- cpos = Fget_char_attribute (character, attribute);
if (VECTORP (v))
{
+ Lisp_Object cpos = Fget_char_attribute (character, ccs, Qnil);
if (!NILP (cpos))
{
- dim = XCHARSET_DIMENSION (ccs);
- code_point = XINT (cpos);
- while (dim > 0)
- {
- dim--;
- i = ((code_point >> (8 * dim)) & 255)
- - XCHARSET_BYTE_OFFSET (ccs);
- nv = XVECTOR_DATA(v)[i];
- if (!VECTORP (nv))
- break;
- v = nv;
- }
- if (i >= 0)
- XVECTOR_DATA(v)[i] = Qnil;
- v = XCHARSET_DECODING_TABLE (ccs);
+ decoding_table_remove_char (v, dim, byte_offset, XINT (cpos));
}
}
+ else
+ {
+ XCHARSET_DECODING_TABLE (ccs)
+ = v = make_older_vector (ccs_len, Qnil);
+ }
+
+ decoding_table_put_char (v, dim, byte_offset, code_point, character);
+ }
+ if (NILP (encoding_table = XCHARSET_ENCODING_TABLE (ccs)))
+ {
+ XCHARSET_ENCODING_TABLE (ccs)
+ = encoding_table = make_char_id_table (Qnil);
+ }
+ put_char_id_table (XCHAR (character), value, encoding_table);
+ return Qt;
+}
+
+Lisp_Object
+remove_char_ccs (Lisp_Object character, Lisp_Object ccs)
+{
+ Lisp_Object decoding_table = XCHARSET_DECODING_TABLE (ccs);
+ Lisp_Object encoding_table = XCHARSET_ENCODING_TABLE (ccs);
+
+ if (VECTORP (decoding_table))
+ {
+ Lisp_Object cpos = Fget_char_attribute (character, ccs, Qnil);
+
+ if (!NILP (cpos))
+ {
+ decoding_table_remove_char (decoding_table,
+ XCHARSET_DIMENSION (ccs),
+ XCHARSET_BYTE_OFFSET (ccs),
+ XINT (cpos));
+ }
}
- return remove_char_attribute (character, attribute);
+ if (CHAR_ID_TABLE_P (encoding_table))
+ {
+ put_char_id_table (XCHAR (character), Qnil, encoding_table);
+ }
+ return Qt;
}
EXFUN (Fmake_char, 3);
if (!LISTP (cell))
signal_simple_error ("Invalid argument", attributes);
+
Fput_char_attribute (character, Fcar (cell), Fcdr (cell));
rest = Fcdr (rest);
}
- return
- get_char_code_table (XCHAR (character), Vcharacter_attribute_table);
+ return character;
}
Lisp_Object Vutf_2000_version;
Qchinese_cns11643_2,
#ifdef UTF2000
Qucs_bmp,
+ Qucs_cns,
Qlatin_viscii,
Qlatin_tcvn5712,
Qlatin_viscii_lower,
Qlatin_viscii_upper,
Qvietnamese_viscii_lower,
Qvietnamese_viscii_upper,
- Qideograph_daikanwa,
+ Qchinese_big5,
Qmojikyo,
+ Qmojikyo_2022_1,
Qmojikyo_pj_1,
Qmojikyo_pj_2,
Qmojikyo_pj_3,
Lisp_Object Vcharset_hash_table;
-#ifdef UTF2000
-static Charset_ID next_allocated_leading_byte;
-#else
-static Charset_ID next_allocated_1_byte_leading_byte;
-static Charset_ID next_allocated_2_byte_leading_byte;
-#endif
-
/* Composite characters are characters constructed by overstriking two
or more regular characters.
Use the macro charptr_emchar() instead. */
Emchar
-non_ascii_charptr_emchar (CONST Bufbyte *str)
+non_ascii_charptr_emchar (const Bufbyte *str)
{
#ifdef UTF2000
Bufbyte b;
/* Basic string functions */
/************************************************************************/
-/* Copy the character pointed to by PTR into STR, assuming it's
- non-ASCII. Do not call this directly. Use the macro
- charptr_copy_char() instead. */
+/* Copy the character pointed to by SRC into DST. Do not call this
+ directly. Use the macro charptr_copy_char() instead.
+ Return the number of bytes copied. */
Bytecount
-non_ascii_charptr_copy_char (CONST Bufbyte *ptr, Bufbyte *str)
+non_ascii_charptr_copy_char (const Bufbyte *src, Bufbyte *dst)
{
- Bufbyte *strptr = str;
- *strptr = *ptr++;
- switch (REP_BYTES_BY_FIRST_BYTE (*strptr))
- {
- /* Notice fallthrough. */
-#ifdef UTF2000
- case 6: *++strptr = *ptr++;
- case 5: *++strptr = *ptr++;
-#endif
- case 4: *++strptr = *ptr++;
- case 3: *++strptr = *ptr++;
- case 2: *++strptr = *ptr;
- break;
- default:
- abort ();
- }
- return strptr + 1 - str;
+ unsigned int bytes = REP_BYTES_BY_FIRST_BYTE (*src);
+ unsigned int i;
+ for (i = bytes; i; i--, dst++, src++)
+ *dst = *src;
+ return bytes;
}
\f
{
Bufbyte str[MAX_EMCHAR_LEN];
Bufbyte *strptr = str;
+ unsigned int bytes;
str[0] = (Bufbyte) ch;
- switch (REP_BYTES_BY_FIRST_BYTE (ch))
+
+ for (bytes = REP_BYTES_BY_FIRST_BYTE (ch) - 1; bytes; bytes--)
{
- /* Notice fallthrough. */
-#ifdef UTF2000
- case 6:
- ch = Lstream_getc (stream);
- assert (ch >= 0);
- *++strptr = (Bufbyte) ch;
- case 5:
- ch = Lstream_getc (stream);
- assert (ch >= 0);
- *++strptr = (Bufbyte) ch;
-#endif
- case 4:
- ch = Lstream_getc (stream);
- assert (ch >= 0);
- *++strptr = (Bufbyte) ch;
- case 3:
- ch = Lstream_getc (stream);
- assert (ch >= 0);
- *++strptr = (Bufbyte) ch;
- case 2:
- ch = Lstream_getc (stream);
- assert (ch >= 0);
- *++strptr = (Bufbyte) ch;
- break;
- default:
- abort ();
+ int c = Lstream_getc (stream);
+ bufpos_checking_assert (c >= 0);
+ *++strptr = (Bufbyte) c;
}
return charptr_emchar (str);
}
static Lisp_Object
mark_charset (Lisp_Object obj)
{
- struct Lisp_Charset *cs = XCHARSET (obj);
+ Lisp_Charset *cs = XCHARSET (obj);
mark_object (cs->short_name);
mark_object (cs->long_name);
mark_object (cs->registry);
mark_object (cs->ccl_program);
#ifdef UTF2000
- mark_object (cs->decoding_table);
+ mark_object (cs->encoding_table);
+ /* mark_object (cs->decoding_table); */
#endif
return cs->name;
}
static void
print_charset (Lisp_Object obj, Lisp_Object printcharfun, int escapeflag)
{
- struct Lisp_Charset *cs = XCHARSET (obj);
+ Lisp_Charset *cs = XCHARSET (obj);
char buf[200];
if (print_readably)
}
static const struct lrecord_description charset_description[] = {
- { XD_LISP_OBJECT, offsetof(struct Lisp_Charset, name), 7 },
+ { XD_LISP_OBJECT, offsetof (Lisp_Charset, name) },
+ { XD_LISP_OBJECT, offsetof (Lisp_Charset, doc_string) },
+ { XD_LISP_OBJECT, offsetof (Lisp_Charset, registry) },
+ { XD_LISP_OBJECT, offsetof (Lisp_Charset, short_name) },
+ { XD_LISP_OBJECT, offsetof (Lisp_Charset, long_name) },
+ { XD_LISP_OBJECT, offsetof (Lisp_Charset, reverse_direction_charset) },
+ { XD_LISP_OBJECT, offsetof (Lisp_Charset, ccl_program) },
#ifdef UTF2000
- { XD_LISP_OBJECT, offsetof(struct Lisp_Charset, decoding_table), 2 },
+ { XD_LISP_OBJECT, offsetof (Lisp_Charset, decoding_table) },
+ { XD_LISP_OBJECT, offsetof (Lisp_Charset, encoding_table) },
#endif
{ XD_END }
};
DEFINE_LRECORD_IMPLEMENTATION ("charset", charset,
mark_charset, print_charset, 0, 0, 0,
charset_description,
- struct Lisp_Charset);
-/* Make a new charset. */
+ Lisp_Charset);
+/* Make a new charset. */
+/* #### SJT Should generic properties be allowed? */
static Lisp_Object
make_charset (Charset_ID id, Lisp_Object name,
unsigned short chars, unsigned char dimension,
Emchar ucs_min, Emchar ucs_max,
Emchar code_offset, unsigned char byte_offset)
{
- unsigned char type = 0;
Lisp_Object obj;
- struct Lisp_Charset *cs =
- alloc_lcrecord_type (struct Lisp_Charset, &lrecord_charset);
+ Lisp_Charset *cs = alloc_lcrecord_type (Lisp_Charset, &lrecord_charset);
+
+ zero_lcrecord (cs);
+
XSETCHARSET (obj, cs);
CHARSET_ID (cs) = id;
CHARSET_REVERSE_DIRECTION_CHARSET (cs) = Qnil;
#ifdef UTF2000
CHARSET_DECODING_TABLE(cs) = Qnil;
+ CHARSET_ENCODING_TABLE(cs) = Qnil;
CHARSET_UCS_MIN(cs) = ucs_min;
CHARSET_UCS_MAX(cs) = ucs_max;
CHARSET_CODE_OFFSET(cs) = code_offset;
CHARSET_BYTE_OFFSET(cs) = byte_offset;
#endif
- switch (CHARSET_CHARS (cs))
- {
- case 94:
- switch (CHARSET_DIMENSION (cs))
- {
- case 1:
- type = CHARSET_TYPE_94;
- break;
- case 2:
- type = CHARSET_TYPE_94X94;
- break;
- }
- break;
- case 96:
- switch (CHARSET_DIMENSION (cs))
- {
- case 1:
- type = CHARSET_TYPE_96;
- break;
- case 2:
- type = CHARSET_TYPE_96X96;
- break;
- }
- break;
-#ifdef UTF2000
- case 128:
- switch (CHARSET_DIMENSION (cs))
- {
- case 1:
- type = CHARSET_TYPE_128;
- break;
- case 2:
- type = CHARSET_TYPE_128X128;
- break;
- }
- break;
- case 256:
- switch (CHARSET_DIMENSION (cs))
- {
- case 1:
- type = CHARSET_TYPE_256;
- break;
- case 2:
- type = CHARSET_TYPE_256X256;
- break;
- }
- break;
-#endif
- }
-#ifndef UTF2000
- CHARSET_TYPE (cs) = type;
-#endif
-
#ifndef UTF2000
if (id == LEADING_BYTE_ASCII)
CHARSET_REP_BYTES (cs) = 1;
/* some charsets do not have final characters. This includes
ASCII, Control-1, Composite, and the two faux private
charsets. */
+ unsigned char iso2022_type
+ = (dimension == 1 ? 0 : 2) + (chars == 94 ? 0 : 1);
#if UTF2000
if (code_offset == 0)
{
- assert (NILP (chlook->charset_by_attributes[type][final]));
- chlook->charset_by_attributes[type][final] = obj;
+ assert (NILP (chlook->charset_by_attributes[iso2022_type][final]));
+ chlook->charset_by_attributes[iso2022_type][final] = obj;
}
#else
- assert (NILP (chlook->charset_by_attributes[type][final][direction]));
- chlook->charset_by_attributes[type][final][direction] = obj;
+ assert (NILP
+ (chlook->charset_by_attributes[iso2022_type][final][direction]));
+ chlook->charset_by_attributes[iso2022_type][final][direction] = obj;
#endif
}
Charset_ID lb;
#ifdef UTF2000
- if (next_allocated_leading_byte > MAX_LEADING_BYTE_PRIVATE)
+ if (chlook->next_allocated_leading_byte > MAX_LEADING_BYTE_PRIVATE)
lb = 0;
else
- lb = next_allocated_leading_byte++;
+ lb = chlook->next_allocated_leading_byte++;
#else
if (dimension == 1)
{
- if (next_allocated_1_byte_leading_byte > MAX_LEADING_BYTE_PRIVATE_1)
+ if (chlook->next_allocated_1_byte_leading_byte > MAX_LEADING_BYTE_PRIVATE_1)
lb = 0;
else
- lb = next_allocated_1_byte_leading_byte++;
+ lb = chlook->next_allocated_1_byte_leading_byte++;
}
else
{
- if (next_allocated_2_byte_leading_byte > MAX_LEADING_BYTE_PRIVATE_2)
+ if (chlook->next_allocated_2_byte_leading_byte > MAX_LEADING_BYTE_PRIVATE_2)
lb = 0;
else
- lb = next_allocated_2_byte_leading_byte++;
+ lb = chlook->next_allocated_2_byte_leading_byte++;
}
#endif
}
#ifdef UTF2000
+/* Number of Big5 characters which have the same code in 1st byte. */
+
+#define BIG5_SAME_ROW (0xFF - 0xA1 + 0x7F - 0x40)
+
Emchar
make_builtin_char (Lisp_Object charset, int c1, int c2)
{
}
else
{
+ if (EQ (charset, Vcharset_chinese_big5))
+ {
+ int B1 = c1, B2 = c2;
+ unsigned int I
+ = (B1 - 0xA1) * BIG5_SAME_ROW
+ + B2 - (B2 < 0x7F ? 0x40 : 0x62);
+
+ if (B1 < 0xC9)
+ {
+ charset = Vcharset_chinese_big5_1;
+ }
+ else
+ {
+ charset = Vcharset_chinese_big5_2;
+ I -= (BIG5_SAME_ROW) * (0xC9 - 0xA1);
+ }
+ c1 = I / 94 + 33;
+ c2 = I % 94 + 33;
+ }
switch (XCHARSET_CHARS (charset))
{
case 94:
return -1;
}
}
+ if (EQ (charset, Vcharset_mojikyo_2022_1)
+ && (MIN_CHAR_MOJIKYO < ch) && (ch < MIN_CHAR_MOJIKYO + 94 * 60 * 94))
+ {
+ int m = ch - MIN_CHAR_MOJIKYO - 1;
+ int byte1 = m / (94 * 60) + 33;
+ int byte2 = (m % (94 * 60)) / 94;
+ int byte3 = m % 94 + 33;
+
+ if (byte2 < 30)
+ byte2 += 16 + 32;
+ else
+ byte2 += 18 + 32;
+ return (byte1 << 16) | (byte2 << 8) | byte3;
+ }
return -1;
}
*charset = Vcharset_ucs;
return c;
}
- /*
else if (c <= MAX_CHAR_DAIKANWA)
{
*charset = Vcharset_ideograph_daikanwa;
return c - MIN_CHAR_DAIKANWA;
}
- */
- else if (c < MIN_CHAR_94)
+ else if (c <= MAX_CHAR_MOJIKYO_0)
{
*charset = Vcharset_mojikyo;
- return c - MIN_CHAR_MOJIKYO;
+ return c - MIN_CHAR_MOJIKYO_0;
+ }
+ else if (c < MIN_CHAR_94)
+ {
+ *charset = Vcharset_ucs;
+ return c;
}
else if (c <= MAX_CHAR_94)
{
- *charset = CHARSET_BY_ATTRIBUTES (CHARSET_TYPE_94,
+ *charset = CHARSET_BY_ATTRIBUTES (94, 1,
((c - MIN_CHAR_94) / 94) + '0',
CHARSET_LEFT_TO_RIGHT);
if (!NILP (*charset))
}
else if (c <= MAX_CHAR_96)
{
- *charset = CHARSET_BY_ATTRIBUTES (CHARSET_TYPE_96,
+ *charset = CHARSET_BY_ATTRIBUTES (96, 1,
((c - MIN_CHAR_96) / 96) + '0',
CHARSET_LEFT_TO_RIGHT);
if (!NILP (*charset))
else if (c <= MAX_CHAR_94x94)
{
*charset
- = CHARSET_BY_ATTRIBUTES (CHARSET_TYPE_94X94,
+ = CHARSET_BY_ATTRIBUTES (94, 2,
((c - MIN_CHAR_94x94) / (94 * 94)) + '0',
CHARSET_LEFT_TO_RIGHT);
if (!NILP (*charset))
else if (c <= MAX_CHAR_96x96)
{
*charset
- = CHARSET_BY_ATTRIBUTES (CHARSET_TYPE_96X96,
+ = CHARSET_BY_ATTRIBUTES (96, 2,
((c - MIN_CHAR_96x96) / (96 * 96)) + '0',
CHARSET_LEFT_TO_RIGHT);
if (!NILP (*charset))
return c;
}
}
+ else if (c < MIN_CHAR_MOJIKYO)
+ {
+ *charset = Vcharset_ucs;
+ return c;
+ }
+ else if (c <= MAX_CHAR_MOJIKYO)
+ {
+ *charset = Vcharset_mojikyo;
+ return c - MIN_CHAR_MOJIKYO;
+ }
else
{
*charset = Vcharset_ucs;
(struct charset_list_closure*) charset_list_closure;
Lisp_Object *charset_list = chcl->charset_list;
- *charset_list = Fcons (XCHARSET_NAME (value), *charset_list);
+ *charset_list = Fcons (key /* XCHARSET_NAME (value) */, *charset_list);
return 0;
}
}
DEFUN ("charset-name", Fcharset_name, 1, 1, 0, /*
-Return the name of the given charset.
+Return the name of charset CHARSET.
*/
(charset))
{
return XCHARSET_NAME (Fget_charset (charset));
}
+/* #### SJT Should generic properties be allowed? */
DEFUN ("make-charset", Fmake_charset, 3, 3, 0, /*
Define a new character set.
This function is for use with Mule support.
{
int id, dimension = 1, chars = 94, graphic = 0, final = 0, columns = -1;
int direction = CHARSET_LEFT_TO_RIGHT;
- int type;
Lisp_Object registry = Qnil;
Lisp_Object charset;
- Lisp_Object rest, keyword, value;
Lisp_Object ccl_program = Qnil;
Lisp_Object short_name = Qnil, long_name = Qnil;
int byte_offset = -1;
if (!NILP (charset))
signal_simple_error ("Cannot redefine existing charset", name);
- EXTERNAL_PROPERTY_LIST_LOOP (rest, keyword, value, props)
- {
- if (EQ (keyword, Qshort_name))
- {
- CHECK_STRING (value);
- short_name = value;
- }
+ {
+ EXTERNAL_PROPERTY_LIST_LOOP_3 (keyword, value, props)
+ {
+ if (EQ (keyword, Qshort_name))
+ {
+ CHECK_STRING (value);
+ short_name = value;
+ }
- if (EQ (keyword, Qlong_name))
- {
- CHECK_STRING (value);
- long_name = value;
- }
+ if (EQ (keyword, Qlong_name))
+ {
+ CHECK_STRING (value);
+ long_name = value;
+ }
- else if (EQ (keyword, Qdimension))
- {
- CHECK_INT (value);
- dimension = XINT (value);
- if (dimension < 1 || dimension > 2)
- signal_simple_error ("Invalid value for 'dimension", value);
- }
+ else if (EQ (keyword, Qdimension))
+ {
+ CHECK_INT (value);
+ dimension = XINT (value);
+ if (dimension < 1 || dimension > 2)
+ signal_simple_error ("Invalid value for 'dimension", value);
+ }
- else if (EQ (keyword, Qchars))
- {
- CHECK_INT (value);
- chars = XINT (value);
- if (chars != 94 && chars != 96)
- signal_simple_error ("Invalid value for 'chars", value);
- }
+ else if (EQ (keyword, Qchars))
+ {
+ CHECK_INT (value);
+ chars = XINT (value);
+ if (chars != 94 && chars != 96)
+ signal_simple_error ("Invalid value for 'chars", value);
+ }
- else if (EQ (keyword, Qcolumns))
- {
- CHECK_INT (value);
- columns = XINT (value);
- if (columns != 1 && columns != 2)
- signal_simple_error ("Invalid value for 'columns", value);
- }
+ else if (EQ (keyword, Qcolumns))
+ {
+ CHECK_INT (value);
+ columns = XINT (value);
+ if (columns != 1 && columns != 2)
+ signal_simple_error ("Invalid value for 'columns", value);
+ }
- else if (EQ (keyword, Qgraphic))
- {
- CHECK_INT (value);
- graphic = XINT (value);
+ else if (EQ (keyword, Qgraphic))
+ {
+ CHECK_INT (value);
+ graphic = XINT (value);
#ifdef UTF2000
- if (graphic < 0 || graphic > 2)
+ if (graphic < 0 || graphic > 2)
#else
- if (graphic < 0 || graphic > 1)
+ if (graphic < 0 || graphic > 1)
#endif
- signal_simple_error ("Invalid value for 'graphic", value);
- }
+ signal_simple_error ("Invalid value for 'graphic", value);
+ }
- else if (EQ (keyword, Qregistry))
- {
- CHECK_STRING (value);
- registry = value;
- }
+ else if (EQ (keyword, Qregistry))
+ {
+ CHECK_STRING (value);
+ registry = value;
+ }
- else if (EQ (keyword, Qdirection))
- {
- if (EQ (value, Ql2r))
- direction = CHARSET_LEFT_TO_RIGHT;
- else if (EQ (value, Qr2l))
- direction = CHARSET_RIGHT_TO_LEFT;
- else
- signal_simple_error ("Invalid value for 'direction", value);
- }
+ else if (EQ (keyword, Qdirection))
+ {
+ if (EQ (value, Ql2r))
+ direction = CHARSET_LEFT_TO_RIGHT;
+ else if (EQ (value, Qr2l))
+ direction = CHARSET_RIGHT_TO_LEFT;
+ else
+ signal_simple_error ("Invalid value for 'direction", value);
+ }
- else if (EQ (keyword, Qfinal))
- {
- CHECK_CHAR_COERCE_INT (value);
- final = XCHAR (value);
- if (final < '0' || final > '~')
- signal_simple_error ("Invalid value for 'final", value);
- }
+ else if (EQ (keyword, Qfinal))
+ {
+ CHECK_CHAR_COERCE_INT (value);
+ final = XCHAR (value);
+ if (final < '0' || final > '~')
+ signal_simple_error ("Invalid value for 'final", value);
+ }
- else if (EQ (keyword, Qccl_program))
- {
- CHECK_VECTOR (value);
- ccl_program = value;
- }
+ else if (EQ (keyword, Qccl_program))
+ {
+ struct ccl_program test_ccl;
- else
- signal_simple_error ("Unrecognized property", keyword);
- }
+ if (setup_ccl_program (&test_ccl, value) < 0)
+ signal_simple_error ("Invalid value for 'ccl-program", value);
+ ccl_program = value;
+ }
+
+ else
+ signal_simple_error ("Unrecognized property", keyword);
+ }
+ }
if (!final)
error ("'final must be specified");
("Final must be in the range 0x30 - 0x5F for dimension == 2",
make_char (final));
- if (dimension == 1)
- type = (chars == 94) ? CHARSET_TYPE_94 : CHARSET_TYPE_96;
- else
- type = (chars == 94) ? CHARSET_TYPE_94X94 : CHARSET_TYPE_96X96;
-
- if (!NILP (CHARSET_BY_ATTRIBUTES (type, final, CHARSET_LEFT_TO_RIGHT)) ||
- !NILP (CHARSET_BY_ATTRIBUTES (type, final, CHARSET_RIGHT_TO_LEFT)))
+ if (!NILP (CHARSET_BY_ATTRIBUTES (chars, dimension, final,
+ CHARSET_LEFT_TO_RIGHT)) ||
+ !NILP (CHARSET_BY_ATTRIBUTES (chars, dimension, final,
+ CHARSET_RIGHT_TO_LEFT)))
error
("Character set already defined for this DIMENSION/CHARS/FINAL combo");
int id, chars, dimension, columns, graphic, final;
int direction;
Lisp_Object registry, doc_string, short_name, long_name;
- struct Lisp_Charset *cs;
+ Lisp_Charset *cs;
charset = Fget_charset (charset);
if (!NILP (XCHARSET_REVERSE_DIRECTION_CHARSET (charset)))
(dimension, chars, final, direction))
{
int dm, ch, fi, di = -1;
- int type;
Lisp_Object obj = Qnil;
CHECK_INT (dimension);
signal_simple_error
("Final must be in the range 0x30 - 0x5F for dimension == 2", final);
- if (dm == 1)
- type = (ch == 94) ? CHARSET_TYPE_94 : CHARSET_TYPE_96;
- else
- type = (ch == 94) ? CHARSET_TYPE_94X94 : CHARSET_TYPE_96X96;
-
- if (di == -1)
+ if (di == -1)
{
- obj = CHARSET_BY_ATTRIBUTES (type, fi, CHARSET_LEFT_TO_RIGHT);
+ obj = CHARSET_BY_ATTRIBUTES (ch, dm, fi, CHARSET_LEFT_TO_RIGHT);
if (NILP (obj))
- obj = CHARSET_BY_ATTRIBUTES (type, fi, CHARSET_RIGHT_TO_LEFT);
+ obj = CHARSET_BY_ATTRIBUTES (ch, dm, fi, CHARSET_RIGHT_TO_LEFT);
}
else
- obj = CHARSET_BY_ATTRIBUTES (type, fi, di);
+ obj = CHARSET_BY_ATTRIBUTES (ch, dm, fi, di);
if (CHARSETP (obj))
return XCHARSET_NAME (obj);
}
DEFUN ("charset-property", Fcharset_property, 2, 2, 0, /*
-Return property PROP of CHARSET.
+Return property PROP of CHARSET, a charset object or symbol naming a charset.
Recognized properties are those listed in `make-charset', as well as
'name and 'doc-string.
*/
(charset, prop))
{
- struct Lisp_Charset *cs;
+ Lisp_Charset *cs;
charset = Fget_charset (charset);
cs = XCHARSET (charset);
if (EQ (prop, Qreverse_direction_charset))
{
Lisp_Object obj = CHARSET_REVERSE_DIRECTION_CHARSET (cs);
- if (NILP (obj))
- return Qnil;
- else
- return XCHARSET_NAME (obj);
+ /* #### Is this translation OK? If so, error checking sufficient? */
+ return CHARSETP (obj) ? XCHARSET_NAME (obj) : obj;
}
signal_simple_error ("Unrecognized charset property name", prop);
return Qnil; /* not reached */
*/
(charset, ccl_program))
{
+ struct ccl_program test_ccl;
+
charset = Fget_charset (charset);
- CHECK_VECTOR (ccl_program);
+ if (setup_ccl_program (&test_ccl, ccl_program) < 0)
+ signal_simple_error ("Invalid ccl-program", ccl_program);
XCHARSET_CCL_PROGRAM (charset) = ccl_program;
return Qnil;
}
(charset, table))
{
struct Lisp_Charset *cs;
- Lisp_Object old_table;
size_t i;
+ int byte_offset;
charset = Fget_charset (charset);
cs = XCHARSET (charset);
- if (EQ (table, Qnil))
+ if (NILP (table))
{
- CHARSET_DECODING_TABLE(cs) = table;
+ if (VECTORP (CHARSET_DECODING_TABLE(cs)))
+ make_vector_newer (CHARSET_DECODING_TABLE(cs));
+ CHARSET_DECODING_TABLE(cs) = Qnil;
return table;
}
else if (VECTORP (table))
{
- int ccs_len;
-
- /* ad-hoc method for `ascii' */
- if ((CHARSET_CHARS (cs) == 94) &&
- (CHARSET_BYTE_OFFSET (cs) != 33))
- ccs_len = 128 - CHARSET_BYTE_OFFSET (cs);
- else
- ccs_len = CHARSET_CHARS (cs);
-
- if (XVECTOR_LENGTH (table) > ccs_len)
- args_out_of_range (table, make_int (CHARSET_CHARS (cs)));
- old_table = CHARSET_DECODING_TABLE(cs);
- CHARSET_DECODING_TABLE(cs) = table;
+ int ccs_len = CHARSET_BYTE_SIZE (cs);
+ int ret = decoding_table_check_elements (table,
+ CHARSET_DIMENSION (cs),
+ ccs_len);
+ if (ret)
+ {
+ if (ret == -1)
+ signal_simple_error ("Too big table", table);
+ else if (ret == -2)
+ signal_simple_error ("Invalid element is found", table);
+ else
+ signal_simple_error ("Something wrong", table);
+ }
+ CHARSET_DECODING_TABLE(cs) = Qnil;
}
else
signal_error (Qwrong_type_argument,
list2 (build_translated_string ("vector-or-nil-p"),
table));
- /* signal_simple_error ("Wrong type argument: vector-or-nil-p", table); */
+ byte_offset = CHARSET_BYTE_OFFSET (cs);
switch (CHARSET_DIMENSION (cs))
{
case 1:
Lisp_Object c = XVECTOR_DATA(table)[i];
if (CHARP (c))
- put_char_attribute
- (c, charset,
- make_int (i + CHARSET_BYTE_OFFSET (cs)));
+ put_char_ccs_code_point (c, charset,
+ make_int (i + byte_offset));
}
break;
case 2:
{
size_t j;
- if (XVECTOR_LENGTH (v) > CHARSET_CHARS (cs))
- {
- CHARSET_DECODING_TABLE(cs) = old_table;
- args_out_of_range (v, make_int (CHARSET_CHARS (cs)));
- }
for (j = 0; j < XVECTOR_LENGTH (v); j++)
{
Lisp_Object c = XVECTOR_DATA(v)[j];
if (CHARP (c))
- put_char_attribute
+ put_char_ccs_code_point
(c, charset,
- make_int ( ((i + CHARSET_BYTE_OFFSET (cs)) << 8)
- | (j + CHARSET_BYTE_OFFSET (cs)) ));
+ make_int ( ( (i + byte_offset) << 8 )
+ | (j + byte_offset)
+ ) );
}
}
else if (CHARP (v))
- put_char_attribute (v, charset,
- make_int (i + CHARSET_BYTE_OFFSET (cs)));
+ put_char_ccs_code_point (v, charset,
+ make_int (i + byte_offset));
}
break;
}
c &= 0x7F7F7F7F;
return make_char (DECODE_CHAR (charset, c));
}
+
+DEFUN ("decode-builtin-char", Fdecode_builtin_char, 2, 2, 0, /*
+Make a builtin character from CHARSET and code-point CODE.
+*/
+ (charset, code))
+{
+ int c;
+ int final;
+
+ charset = Fget_charset (charset);
+ CHECK_INT (code);
+ c = XINT (code);
+
+ if ((final = XCHARSET_FINAL (charset)) >= '0')
+ {
+ if (XCHARSET_DIMENSION (charset) == 1)
+ {
+ switch (XCHARSET_CHARS (charset))
+ {
+ case 94:
+ return
+ make_char (MIN_CHAR_94 + (final - '0') * 94
+ + ((c & 0x7F) - 33));
+ case 96:
+ return
+ make_char (MIN_CHAR_96 + (final - '0') * 96
+ + ((c & 0x7F) - 32));
+ default:
+ return Fdecode_char (charset, code);
+ }
+ }
+ else
+ {
+ switch (XCHARSET_CHARS (charset))
+ {
+ case 94:
+ return
+ make_char (MIN_CHAR_94x94
+ + (final - '0') * 94 * 94
+ + (((c >> 8) & 0x7F) - 33) * 94
+ + ((c & 0x7F) - 33));
+ case 96:
+ return
+ make_char (MIN_CHAR_96x96
+ + (final - '0') * 96 * 96
+ + (((c >> 8) & 0x7F) - 32) * 96
+ + ((c & 0x7F) - 32));
+ default:
+ return Fdecode_char (charset, code);
+ }
+ }
+ }
+ else if (XCHARSET_UCS_MAX (charset))
+ {
+ Emchar cid
+ = (XCHARSET_DIMENSION (charset) == 1
+ ?
+ c - XCHARSET_BYTE_OFFSET (charset)
+ :
+ ((c >> 8) - XCHARSET_BYTE_OFFSET (charset))
+ * XCHARSET_CHARS (charset)
+ + (c & 0xFF) - XCHARSET_BYTE_OFFSET (charset))
+ - XCHARSET_CODE_OFFSET (charset) + XCHARSET_UCS_MIN (charset);
+ if ((cid < XCHARSET_UCS_MIN (charset))
+ || (XCHARSET_UCS_MAX (charset) < cid))
+ return Fdecode_char (charset, code);
+ return make_char (cid);
+ }
+ else
+ return Fdecode_char (charset, code);
+}
#endif
DEFUN ("make-char", Fmake_char, 2, 3, 0, /*
*/
(charset, arg1, arg2))
{
- struct Lisp_Charset *cs;
+ Lisp_Charset *cs;
int a1, a2;
int lowlim, highlim;
CHECK_INT (arg1);
/* It is useful (and safe, according to Olivier Galibert) to strip
- the 8th bit off ARG1 and ARG2 becaue it allows programmers to
+ the 8th bit off ARG1 and ARG2 because it allows programmers to
write (make-char 'latin-iso8859-2 CODE) where code is the actual
Latin 2 code of the character. */
#ifdef UTF2000
}
DEFUN ("char-charset", Fchar_charset, 1, 1, 0, /*
-Return the character set of char CH.
+Return the character set of CHARACTER.
*/
- (ch))
+ (character))
{
- CHECK_CHAR_COERCE_INT (ch);
+ CHECK_CHAR_COERCE_INT (character);
- return XCHARSET_NAME (CHAR_CHARSET (XCHAR (ch)));
+ return XCHARSET_NAME (CHAR_CHARSET (XCHAR (character)));
}
DEFUN ("char-octet", Fchar_octet, 1, 2, 0, /*
-Return the octet numbered N (should be 0 or 1) of char CH.
+Return the octet numbered N (should be 0 or 1) of CHARACTER.
N defaults to 0 if omitted.
*/
- (ch, n))
+ (character, n))
{
Lisp_Object charset;
int octet0, octet1;
- CHECK_CHAR_COERCE_INT (ch);
+ CHECK_CHAR_COERCE_INT (character);
- BREAKUP_CHAR (XCHAR (ch), charset, octet0, octet1);
+ BREAKUP_CHAR (XCHAR (character), charset, octet0, octet1);
if (NILP (n) || EQ (n, Qzero))
return make_int (octet0);
}
DEFUN ("split-char", Fsplit_char, 1, 1, 0, /*
-Return list of charset and one or two position-codes of CHAR.
+Return list of charset and one or two position-codes of CHARACTER.
*/
(character))
{
void
syms_of_mule_charset (void)
{
+#ifdef UTF2000
+ INIT_LRECORD_IMPLEMENTATION (uint8_byte_table);
+ INIT_LRECORD_IMPLEMENTATION (uint16_byte_table);
+ INIT_LRECORD_IMPLEMENTATION (byte_table);
+ INIT_LRECORD_IMPLEMENTATION (char_id_table);
+#endif
+ INIT_LRECORD_IMPLEMENTATION (charset);
+
DEFSUBR (Fcharsetp);
DEFSUBR (Ffind_charset);
DEFSUBR (Fget_charset);
DEFSUBR (Fset_charset_ccl_program);
DEFSUBR (Fset_charset_registry);
#ifdef UTF2000
+ DEFSUBR (Fchar_attribute_list);
+ DEFSUBR (Ffind_char_attribute_table);
DEFSUBR (Fchar_attribute_alist);
DEFSUBR (Fget_char_attribute);
DEFSUBR (Fput_char_attribute);
#ifdef UTF2000
DEFSUBR (Fdecode_char);
+ DEFSUBR (Fdecode_builtin_char);
#endif
DEFSUBR (Fmake_char);
DEFSUBR (Fchar_charset);
defsymbol (&Qfont, "font");
defsymbol (&Qucs, "ucs");
defsymbol (&Qucs_bmp, "ucs-bmp");
+ defsymbol (&Qucs_cns, "ucs-cns");
defsymbol (&Qlatin_viscii, "latin-viscii");
defsymbol (&Qlatin_tcvn5712, "latin-tcvn5712");
defsymbol (&Qlatin_viscii_lower, "latin-viscii-lower");
defsymbol (&Qvietnamese_viscii_lower, "vietnamese-viscii-lower");
defsymbol (&Qvietnamese_viscii_upper, "vietnamese-viscii-upper");
defsymbol (&Qideograph_daikanwa, "ideograph-daikanwa");
+ defsymbol (&Qchinese_big5, "chinese-big5");
defsymbol (&Qmojikyo, "mojikyo");
+ defsymbol (&Qmojikyo_2022_1, "mojikyo-2022-1");
defsymbol (&Qmojikyo_pj_1, "mojikyo-pj-1");
defsymbol (&Qmojikyo_pj_2, "mojikyo-pj-2");
defsymbol (&Qmojikyo_pj_3, "mojikyo-pj-3");
#endif
#ifdef UTF2000
- next_allocated_leading_byte = MIN_LEADING_BYTE_PRIVATE;
+ chlook->next_allocated_leading_byte = MIN_LEADING_BYTE_PRIVATE;
#else
- next_allocated_1_byte_leading_byte = MIN_LEADING_BYTE_PRIVATE_1;
- next_allocated_2_byte_leading_byte = MIN_LEADING_BYTE_PRIVATE_2;
+ chlook->next_allocated_1_byte_leading_byte = MIN_LEADING_BYTE_PRIVATE_1;
+ chlook->next_allocated_2_byte_leading_byte = MIN_LEADING_BYTE_PRIVATE_2;
#endif
#ifndef UTF2000
#endif
#ifdef UTF2000
- Vutf_2000_version = build_string("0.15 (Sangō)");
+ Vutf_2000_version = build_string("0.17 (Hōryūji)");
DEFVAR_LISP ("utf-2000-version", &Vutf_2000_version /*
Version number of UTF-2000.
*/ );
- staticpro (&Vcharacter_attribute_table);
- Vcharacter_attribute_table = make_char_code_table (Qnil);
-
staticpro (&Vcharacter_composition_table);
- Vcharacter_composition_table = make_char_code_table (Qnil);
+ Vcharacter_composition_table = make_char_id_table (Qnil);
staticpro (&Vcharacter_variant_table);
- Vcharacter_variant_table = make_char_code_table (Qnil);
+ Vcharacter_variant_table = make_char_id_table (Qnil);
Vdefault_coded_charset_priority_list = Qnil;
DEFVAR_LISP ("default-coded-charset-priority-list",
ease of access. */
#ifdef UTF2000
+ staticpro (&Vchar_attribute_hash_table);
+ Vchar_attribute_hash_table
+ = make_lisp_hash_table (16, HASH_TABLE_NON_WEAK, HASH_TABLE_EQ);
+
staticpro (&Vcharset_ucs);
Vcharset_ucs =
make_charset (LEADING_BYTE_UCS, Qucs, 256, 4,
build_string ("ISO/IEC 10646 Group 0 Plane 0 (BMP)"),
build_string ("\\(ISO10646.*-1\\|UNICODE[23]?-0\\)"),
Qnil, 0, 0xFFFF, 0, 0);
+ staticpro (&Vcharset_ucs_cns);
+ Vcharset_ucs_cns =
+ make_charset (LEADING_BYTE_UCS_CNS, Qucs_cns, 256, 4,
+ 1, 2, 0, CHARSET_LEFT_TO_RIGHT,
+ build_string ("UCS for CNS"),
+ build_string ("UCS for CNS 11643"),
+ build_string ("ISO/IEC 10646 for CNS 11643"),
+ build_string (""),
+ Qnil, 0, 0xFFFFFFF, 0, 0);
#else
# define MIN_CHAR_THAI 0
# define MAX_CHAR_THAI 0
build_string ("VISCII 1.1 (Vietnamese)"),
build_string ("VISCII1\\.1"),
Qnil, 0, 0, 0, 0);
+ staticpro (&Vcharset_chinese_big5);
+ Vcharset_chinese_big5 =
+ make_charset (LEADING_BYTE_CHINESE_BIG5, Qchinese_big5, 256, 2,
+ 2, 2, 0, CHARSET_LEFT_TO_RIGHT,
+ build_string ("Big5"),
+ build_string ("Big5"),
+ build_string ("Big5 Chinese traditional"),
+ build_string ("big5"),
+ Qnil, 0, 0, 0, 0);
staticpro (&Vcharset_ideograph_daikanwa);
Vcharset_ideograph_daikanwa =
make_charset (LEADING_BYTE_DAIKANWA, Qideograph_daikanwa, 256, 2,
build_string ("Konjaku-Mojikyo"),
build_string (""),
Qnil, MIN_CHAR_MOJIKYO, MAX_CHAR_MOJIKYO, 0, 0);
- staticpro (&Vcharset_mojikyo_pj_1);
- Vcharset_mojikyo_pj_1 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_1, Qmojikyo_pj_1, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-1"),
- build_string ("Mojikyo (pseudo JIS encoding) part 1"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 1"),
- build_string ("jisx0208\\.Mojikyo-1$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_2);
- Vcharset_mojikyo_pj_2 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_2, Qmojikyo_pj_2, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-2"),
- build_string ("Mojikyo (pseudo JIS encoding) part 2"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 2"),
- build_string ("jisx0208\\.Mojikyo-2$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_3);
- Vcharset_mojikyo_pj_3 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_3, Qmojikyo_pj_3, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-3"),
- build_string ("Mojikyo (pseudo JIS encoding) part 3"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 3"),
- build_string ("jisx0208\\.Mojikyo-3$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_4);
- Vcharset_mojikyo_pj_4 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_4, Qmojikyo_pj_4, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-4"),
- build_string ("Mojikyo (pseudo JIS encoding) part 4"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 4"),
- build_string ("jisx0208\\.Mojikyo-4$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_5);
- Vcharset_mojikyo_pj_5 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_5, Qmojikyo_pj_5, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-5"),
- build_string ("Mojikyo (pseudo JIS encoding) part 5"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 5"),
- build_string ("jisx0208\\.Mojikyo-5$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_6);
- Vcharset_mojikyo_pj_6 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_6, Qmojikyo_pj_6, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-6"),
- build_string ("Mojikyo (pseudo JIS encoding) part 6"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 6"),
- build_string ("jisx0208\\.Mojikyo-6$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_7);
- Vcharset_mojikyo_pj_7 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_7, Qmojikyo_pj_7, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-7"),
- build_string ("Mojikyo (pseudo JIS encoding) part 7"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 7"),
- build_string ("jisx0208\\.Mojikyo-7$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_8);
- Vcharset_mojikyo_pj_8 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_8, Qmojikyo_pj_8, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-8"),
- build_string ("Mojikyo (pseudo JIS encoding) part 8"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 8"),
- build_string ("jisx0208\\.Mojikyo-8$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_9);
- Vcharset_mojikyo_pj_9 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_9, Qmojikyo_pj_9, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-9"),
- build_string ("Mojikyo (pseudo JIS encoding) part 9"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 9"),
- build_string ("jisx0208\\.Mojikyo-9$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_10);
- Vcharset_mojikyo_pj_10 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_10, Qmojikyo_pj_10, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-10"),
- build_string ("Mojikyo (pseudo JIS encoding) part 10"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 10"),
- build_string ("jisx0208\\.Mojikyo-10$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_11);
- Vcharset_mojikyo_pj_11 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_11, Qmojikyo_pj_11, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-11"),
- build_string ("Mojikyo (pseudo JIS encoding) part 11"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 11"),
- build_string ("jisx0208\\.Mojikyo-11$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_12);
- Vcharset_mojikyo_pj_12 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_12, Qmojikyo_pj_12, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-12"),
- build_string ("Mojikyo (pseudo JIS encoding) part 12"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 12"),
- build_string ("jisx0208\\.Mojikyo-12$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_13);
- Vcharset_mojikyo_pj_13 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_13, Qmojikyo_pj_13, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-13"),
- build_string ("Mojikyo (pseudo JIS encoding) part 13"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 13"),
- build_string ("jisx0208\\.Mojikyo-13$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_14);
- Vcharset_mojikyo_pj_14 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_14, Qmojikyo_pj_14, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-14"),
- build_string ("Mojikyo (pseudo JIS encoding) part 14"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 14"),
- build_string ("jisx0208\\.Mojikyo-14$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_15);
- Vcharset_mojikyo_pj_15 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_15, Qmojikyo_pj_15, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-15"),
- build_string ("Mojikyo (pseudo JIS encoding) part 15"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 15"),
- build_string ("jisx0208\\.Mojikyo-15$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_16);
- Vcharset_mojikyo_pj_16 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_16, Qmojikyo_pj_16, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-16"),
- build_string ("Mojikyo (pseudo JIS encoding) part 16"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 16"),
- build_string ("jisx0208\\.Mojikyo-16$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_17);
- Vcharset_mojikyo_pj_17 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_17, Qmojikyo_pj_17, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-17"),
- build_string ("Mojikyo (pseudo JIS encoding) part 17"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 17"),
- build_string ("jisx0208\\.Mojikyo-17$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_18);
- Vcharset_mojikyo_pj_18 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_18, Qmojikyo_pj_18, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-18"),
- build_string ("Mojikyo (pseudo JIS encoding) part 18"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 18"),
- build_string ("jisx0208\\.Mojikyo-18$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_19);
- Vcharset_mojikyo_pj_19 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_19, Qmojikyo_pj_19, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-19"),
- build_string ("Mojikyo (pseudo JIS encoding) part 19"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 19"),
- build_string ("jisx0208\\.Mojikyo-19$"),
- Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_20);
- Vcharset_mojikyo_pj_20 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_20, Qmojikyo_pj_20, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-20"),
- build_string ("Mojikyo (pseudo JIS encoding) part 20"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 20"),
- build_string ("jisx0208\\.Mojikyo-20$"),
+ staticpro (&Vcharset_mojikyo_2022_1);
+ Vcharset_mojikyo_2022_1 =
+ make_charset (LEADING_BYTE_MOJIKYO_2022_1, Qmojikyo_2022_1, 94, 3,
+ 2, 2, ':', CHARSET_LEFT_TO_RIGHT,
+ build_string ("Mojikyo-2022-1"),
+ build_string ("Mojikyo ISO-2022 Part 1"),
+ build_string ("Konjaku-Mojikyo for ISO/IEC 2022 Part 1"),
+ build_string (""),
Qnil, 0, 0, 0, 33);
- staticpro (&Vcharset_mojikyo_pj_21);
- Vcharset_mojikyo_pj_21 =
- make_charset (LEADING_BYTE_MOJIKYO_PJ_21, Qmojikyo_pj_21, 94, 2,
- 2, 0, 0, CHARSET_LEFT_TO_RIGHT,
- build_string ("Mojikyo-PJ-21"),
- build_string ("Mojikyo (pseudo JIS encoding) part 21"),
- build_string
- ("Konjaku-Mojikyo (pseudo JIS encoding) part 21"),
- build_string ("jisx0208\\.Mojikyo-21$"),
+
+#define DEF_MOJIKYO_PJ(n) \
+ staticpro (&Vcharset_mojikyo_pj_##n); \
+ Vcharset_mojikyo_pj_##n = \
+ make_charset (LEADING_BYTE_MOJIKYO_PJ_##n, Qmojikyo_pj_##n, 94, 2, \
+ 2, 0, 0, CHARSET_LEFT_TO_RIGHT, \
+ build_string ("Mojikyo-PJ-"#n), \
+ build_string ("Mojikyo (pseudo JIS encoding) part "#n), \
+ build_string \
+ ("Konjaku-Mojikyo (pseudo JIS encoding) part "#n), \
+ build_string \
+ ("\\(MojikyoPJ-"#n "\\|jisx0208\\.Mojikyo-"#n "\\)$"), \
Qnil, 0, 0, 0, 33);
+
+ DEF_MOJIKYO_PJ (1);
+ DEF_MOJIKYO_PJ (2);
+ DEF_MOJIKYO_PJ (3);
+ DEF_MOJIKYO_PJ (4);
+ DEF_MOJIKYO_PJ (5);
+ DEF_MOJIKYO_PJ (6);
+ DEF_MOJIKYO_PJ (7);
+ DEF_MOJIKYO_PJ (8);
+ DEF_MOJIKYO_PJ (9);
+ DEF_MOJIKYO_PJ (10);
+ DEF_MOJIKYO_PJ (11);
+ DEF_MOJIKYO_PJ (12);
+ DEF_MOJIKYO_PJ (13);
+ DEF_MOJIKYO_PJ (14);
+ DEF_MOJIKYO_PJ (15);
+ DEF_MOJIKYO_PJ (16);
+ DEF_MOJIKYO_PJ (17);
+ DEF_MOJIKYO_PJ (18);
+ DEF_MOJIKYO_PJ (19);
+ DEF_MOJIKYO_PJ (20);
+ DEF_MOJIKYO_PJ (21);
+
staticpro (&Vcharset_ethiopic_ucs);
Vcharset_ethiopic_ucs =
make_charset (LEADING_BYTE_ETHIOPIC_UCS, Qethiopic_ucs, 256, 2,