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mariadb/strings/uca-dump.c
Alexander Barkov 133446828c MDEV-27009 Add UCA-14.0.0 collations 
- Added one neutral and 22 tailored (language specific) collations based on
  Unicode Collation Algorithm version 14.0.0.

  Collations were added for Unicode character sets
  utf8mb3, utf8mb4, ucs2, utf16, utf32.

  Every tailoring was added with four accent and case
  sensitivity flag combinations, e.g:

  * utf8mb4_uca1400_swedish_as_cs
  * utf8mb4_uca1400_swedish_as_ci
  * utf8mb4_uca1400_swedish_ai_cs
  * utf8mb4_uca1400_swedish_ai_ci

  and their _nopad_ variants:

  * utf8mb4_uca1400_swedish_nopad_as_cs
  * utf8mb4_uca1400_swedish_nopad_as_ci
  * utf8mb4_uca1400_swedish_nopad_ai_cs
  * utf8mb4_uca1400_swedish_nopad_ai_ci

- Introducing a conception of contextually typed named collations:

  CREATE DATABASE db1 CHARACTER SET utf8mb4;
  CREATE TABLE db1.t1 (a CHAR(10) COLLATE uca1400_as_ci);

  The idea is that there is no a need to specify the character set prefix
  in the new collation names. It's enough to type just the suffix
  "uca1400_as_ci". The character set is taken from the context.

  In the above example script the context character set is utf8mb4.
  So the CREATE TABLE will make a column with the collation
  utf8mb4_uca1400_as_ci.

  Short collations names can be used in any parts of the SQL syntax
  where the COLLATE clause is understood.

- New collations are displayed only one time
  (without character set combinations) by these statements:

     SELECT * FROM INFORMATION_SCHEMA.COLLATIONS;
     SHOW COLLATION;

  For example, all these collations:
  - utf8mb3_uca1400_swedish_as_ci
  - utf8mb4_uca1400_swedish_as_ci
  - ucs2_uca1400_swedish_as_ci
  - utf16_uca1400_swedish_as_ci
  - utf32_uca1400_swedish_as_ci
  have just one entry in INFORMATION_SCHEMA.COLLATIONS and SHOW COLLATION,
  with COLLATION_NAME equal to "uca1400_swedish_as_ci", which is the suffix
  without the character set name:

SELECT COLLATION_NAME FROM INFORMATION_SCHEMA.COLLATIONS
WHERE COLLATION_NAME LIKE '%uca1400_swedish_as_ci';

+-----------------------+
| COLLATION_NAME        |
+-----------------------+
| uca1400_swedish_as_ci |
+-----------------------+

  Note, the behaviour of old collations did not change.
  Non-unicode collations (e.g. latin1_swedish_ci) and
  old UCA-4.0.0 collations (e.g. utf8mb4_unicode_ci)
  are still displayed with the character set prefix, as before.

- The structure of the table INFORMATION_SCHEMA.COLLATIONS was changed.

  The NOT NULL constraint was removed from these columns:
  - CHARACTER_SET_NAME
  - ID
  - IS_DEFAULT
  and from the corresponding columns in SHOW COLLATION.

  For example:

SELECT COLLATION_NAME, CHARACTER_SET_NAME, ID, IS_DEFAULT
FROM INFORMATION_SCHEMA.COLLATIONS
WHERE COLLATION_NAME LIKE '%uca1400_swedish_as_ci';
+-----------------------+--------------------+------+------------+
| COLLATION_NAME        | CHARACTER_SET_NAME | ID   | IS_DEFAULT |
+-----------------------+--------------------+------+------------+
| uca1400_swedish_as_ci | NULL               | NULL | NULL       |
+-----------------------+--------------------+------+------------+

  The NULL value in these columns now means that the collation
  is applicable to multiple character sets.
  The behavioir of old collations did not change.
  Make sure your client programs can handle NULL values in these columns.

- The structure of the table
  INFORMATION_SCHEMA.COLLATION_CHARACTER_SET_APPLICABILITY was changed.

  Three new NOT NULL columns were added:
  - FULL_COLLATION_NAME
  - ID
  - IS_DEFAULT

  New collations have multiple entries in COLLATION_CHARACTER_SET_APPLICABILITY.
  The column COLLATION_NAME contains the collation name without the character
  set prefix. The column FULL_COLLATION_NAME contains the collation name with
  the character set prefix.

  Old collations have full collation name in both FULL_COLLATION_NAME and
  COLLATION_NAME.

SELECT COLLATION_NAME, FULL_COLLATION_NAME, CHARACTER_SET_NAME, ID, IS_DEFAULT
FROM INFORMATION_SCHEMA.COLLATION_CHARACTER_SET_APPLICABILITY
WHERE FULL_COLLATION_NAME RLIKE '^(utf8mb4|latin1).*swedish.*ci$';
+-----------------------------+-------------------------------------+--------------------+------+------------+
| COLLATION_NAME              | FULL_COLLATION_NAME                 | CHARACTER_SET_NAME | ID   | IS_DEFAULT |
+-----------------------------+-------------------------------------+--------------------+------+------------+
| latin1_swedish_ci           | latin1_swedish_ci                   | latin1             |    8 | Yes        |
| latin1_swedish_nopad_ci     | latin1_swedish_nopad_ci             | latin1             | 1032 |            |
| utf8mb4_swedish_ci          | utf8mb4_swedish_ci                  | utf8mb4            |  232 |            |
| uca1400_swedish_ai_ci       | utf8mb4_uca1400_swedish_ai_ci       | utf8mb4            | 2368 |            |
| uca1400_swedish_as_ci       | utf8mb4_uca1400_swedish_as_ci       | utf8mb4            | 2370 |            |
| uca1400_swedish_nopad_ai_ci | utf8mb4_uca1400_swedish_nopad_ai_ci | utf8mb4            | 2372 |            |
| uca1400_swedish_nopad_as_ci | utf8mb4_uca1400_swedish_nopad_as_ci | utf8mb4            | 2374 |            |
+-----------------------------+-------------------------------------+--------------------+------+------------+

- Other INFORMATION_SCHEMA queries:

  SELECT COLLATION_NAME FROM INFORMATION_SCHEMA.COLUMNS;
  SELECT COLLATION_NAME FROM INFORMATION_SCHEMA.PARAMETERS;
  SELECT TABLE_COLLATION FROM INFORMATION_SCHEMA.TABLES;
  SELECT DEFAULT_COLLATION_NAME FROM INFORMATION_SCHEMA.SCHEMATA;
  SELECT COLLATION_NAME FROM INFORMATION_SCHEMA.ROUTINES;
  SELECT COLLATION_CONNECTION FROM INFORMATION_SCHEMA.EVENTS;
  SELECT DATABASE_COLLATION FROM INFORMATION_SCHEMA.EVENTS;
  SELECT COLLATION_CONNECTION FROM INFORMATION_SCHEMA.ROUTINES;
  SELECT DATABASE_COLLATION FROM INFORMATION_SCHEMA.ROUTINES;
  SELECT COLLATION_CONNECTION FROM INFORMATION_SCHEMA.TRIGGERS;
  SELECT DATABASE_COLLATION FROM INFORMATION_SCHEMA.TRIGGERS;
  SELECT COLLATION_CONNECTION FROM INFORMATION_SCHEMA.VIEWS;

  display full collation names, including character sets prefix,
  for all collations, including new collations.

  Corresponding SHOW commands also display full collation names
  in collation related columns:

  SHOW CREATE TABLE t1;
  SHOW CREATE DATABASE db1;
  SHOW TABLE STATUS;
  SHOW CREATE FUNCTION f1;
  SHOW CREATE PROCEDURE p1;
  SHOW CREATE EVENT ev1;
  SHOW CREATE TRIGGER tr1;
  SHOW CREATE VIEW;

  These INFORMATION_SCHEMA queries and SHOW statements may change in
  the future, to display show collation names.
2022-08-10 15:04:24 +02:00

994 lines
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/* Copyright (c) 2004, 2006 MySQL AB
Copyright (c) 2009-2011, Monty Program Ab
Use is subject to license terms.
Copyright (c) 2009-2011, Monty Program Ab
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "my_global.h"
#include "m_ctype.h"
#include "ctype-uca.h"
#define MAX_ALLOWED_CODE 0x10FFFF
typedef struct opt_st
{
const char *name_prefix; /* Name that goes into all array names */
const char *filename; /* The filename or "-" for stdin */
uint levels; /* The number of levels to dump */
my_bool no_contractions;
my_bool case_first_upper;
} OPT;
static OPT defaults=
{
"uca",
"-",
3,
FALSE,
FALSE
};
typedef struct my_ducet_weight_st
{
uint16 weight[4][MY_UCA_MAX_WEIGHT_SIZE];
size_t weight_length;
} MY_DUCET_WEIGHT;
typedef struct my_ducet_single_char_t
{
MY_DUCET_WEIGHT weight;
my_bool is_variable;
} MY_DUCET_SINGLE_CHAR;
typedef struct my_ducet_char_t
{
my_wc_t wc[MY_UCA_MAX_CONTRACTION];
size_t length;
} MY_DUCET_CHARS;
typedef struct my_ducet_contraction_t
{
MY_DUCET_CHARS chars;
MY_DUCET_WEIGHT weights;
} MY_DUCET_CONTRACTION;
typedef struct my_ducet_contraction_list_st
{
size_t nitems;
MY_DUCET_CONTRACTION item[4*1024];
} MY_DUCET_CONTRACTION_LIST;
typedef struct my_ducet_logical_posision_st
{
my_wc_t first;
my_wc_t last;
} MY_DUCET_LOGICAL_POSITION;
typedef struct my_ducet_logical_positions_st
{
MY_DUCET_LOGICAL_POSITION tertiary_ignorable;
MY_DUCET_LOGICAL_POSITION secondary_ignorable;
MY_DUCET_LOGICAL_POSITION primary_ignorable;
MY_DUCET_LOGICAL_POSITION variable;
MY_DUCET_LOGICAL_POSITION non_ignorable;
} MY_DUCET_LOGICAL_POSITIONS;
typedef struct my_allkeys_st
{
MY_DUCET_SINGLE_CHAR single_chars[MAX_ALLOWED_CODE+1];
MY_DUCET_CONTRACTION_LIST contractions;
MY_DUCET_LOGICAL_POSITIONS logical_positions;
uint version;
char version_str[32];
} MY_DUCET;
static int
my_ducet_weight_cmp_on_level(const MY_DUCET_WEIGHT *a,
const MY_DUCET_WEIGHT *b,
uint level)
{
uint i;
for (i= 0; i < array_elements(a->weight[level]); i++)
{
int diff= (int) a->weight[level][i] - (int) b->weight[level][i];
if (diff)
return diff;
}
return 0;
}
static int
my_ducet_weight_cmp(const MY_DUCET_WEIGHT *a,
const MY_DUCET_WEIGHT *b)
{
uint level;
for (level= 0; level < array_elements(a->weight); level++)
{
int diff= my_ducet_weight_cmp_on_level(a, b, level);
if (diff)
return diff;
}
return 0;
}
/*
"3.11 Logical Reset Positions" says:
The CLDR table (based on UCA) has the following overall structure for weights,
going from low to high.
*/
static my_bool
my_ducet_weight_is_tertiary_ignorable(const MY_DUCET_WEIGHT *w)
{
return w->weight[0][0] == 0 &&
w->weight[1][0] == 0 &&
w->weight[2][0] == 0;
}
static my_bool
my_ducet_weight_is_secondary_ignorable(const MY_DUCET_WEIGHT *w)
{
return w->weight[0][0] == 0 &&
w->weight[1][0] == 0 &&
w->weight[2][0] != 0;
}
static my_bool
my_ducet_weight_is_primary_ignorable(const MY_DUCET_WEIGHT *w)
{
return w->weight[0][0] == 0 &&
w->weight[1][0] != 0 &&
w->weight[2][0] != 0;
}
static my_bool
my_ducet_weight_is_primary_non_ignorable(const MY_DUCET_WEIGHT *w)
{
return w->weight[0][0] > 0 && w->weight[0][0] < 0xFB00;
}
/*
if alternate = non-ignorable
p != ignore,
if alternate = shifted
p, s, t = ignore
*/
static my_bool
my_ducet_single_char_is_variable(const MY_DUCET_SINGLE_CHAR *ch)
{
return ch->is_variable &&
my_ducet_weight_is_primary_non_ignorable(&ch->weight);
}
static void
my_ducet_logical_position_set(MY_DUCET_LOGICAL_POSITION *dst, my_wc_t wc)
{
dst->first= dst->last= wc;
}
static void
my_ducet_logical_position_update(MY_DUCET_LOGICAL_POSITION *dst,
const MY_DUCET *ducet, my_wc_t current)
{
const MY_DUCET_SINGLE_CHAR *chars= ducet->single_chars;
int diff;
if (current >= array_elements(ducet->single_chars))
return;
if ((diff= my_ducet_weight_cmp(&chars[current].weight,
&chars[dst->first].weight)) < 0 ||
(diff == 0 && current < dst->first))
dst->first= current;
if ((diff= my_ducet_weight_cmp(&chars[current].weight,
&chars[dst->last].weight)) > 0 ||
(diff == 0 && current > dst->last))
dst->last= current;
}
static void
my_ducet_logical_positions_init(MY_DUCET_LOGICAL_POSITIONS *dst,
const MY_DUCET *ducet)
{
uint i;
const MY_DUCET_SINGLE_CHAR *chars= ducet->single_chars;
for (i= 0; i < array_elements(ducet->single_chars); i++)
{
if (my_ducet_weight_is_tertiary_ignorable(&chars[i].weight))
{
my_ducet_logical_position_set(&dst->tertiary_ignorable, i);
break;
}
}
for (i= 0; i < array_elements(ducet->single_chars); i++)
{
if (my_ducet_weight_is_secondary_ignorable(&chars[i].weight))
{
my_ducet_logical_position_set(&dst->secondary_ignorable, i);
break;
}
}
for (i= 0; i < array_elements(ducet->single_chars); i++)
{
if (my_ducet_weight_is_primary_ignorable(&chars[i].weight))
{
my_ducet_logical_position_set(&dst->primary_ignorable, i);
break;
}
}
for (i= 0; i < array_elements(ducet->single_chars); i++)
{
if (my_ducet_weight_is_primary_non_ignorable(&chars[i].weight))
{
my_ducet_logical_position_set(&dst->non_ignorable, i);
break;
}
}
for (i= 0; i < array_elements(ducet->single_chars); i++)
{
if (my_ducet_single_char_is_variable(&chars[i]))
{
my_ducet_logical_position_set(&dst->variable, i);
break;
}
}
for (i= 1; i < array_elements(ducet->single_chars); i++)
{
if (my_ducet_weight_is_primary_non_ignorable(&chars[i].weight))
my_ducet_logical_position_update(&dst->non_ignorable, ducet, i);
if (my_ducet_weight_is_primary_ignorable(&chars[i].weight))
my_ducet_logical_position_update(&dst->primary_ignorable, ducet, i);
if (my_ducet_weight_is_secondary_ignorable(&chars[i].weight))
my_ducet_logical_position_update(&dst->secondary_ignorable, ducet, i);
if (my_ducet_weight_is_tertiary_ignorable(&chars[i].weight))
my_ducet_logical_position_update(&dst->tertiary_ignorable, ducet, i);
if (my_ducet_single_char_is_variable(&chars[i]))
my_ducet_logical_position_update(&dst->variable, ducet, i);
}
/*
DUCET as of Unicode-14.0.0 does not have any secondary ignorable
characters, i.e. with weights [p=0000, s=0000, t!=0000]
For compatibility with 4.0.0 and 5.2.0 data in ctype-uca.c,
let copy tertiary_ignorable to secondary_ignorable.
It gives effectively the same result with just leaving
secondary_ignorable as {first=U+0000,last=U+0000}.
*/
if (dst->secondary_ignorable.first == 0 && dst->secondary_ignorable.last == 0)
{
dst->secondary_ignorable.first= dst->tertiary_ignorable.first;
dst->secondary_ignorable.last= dst->tertiary_ignorable.last;
}
}
static void
my_ducet_weight_normalize_on_level(MY_DUCET_WEIGHT *weights,
uint level,
const OPT *options)
{
uint dst, src;
for (src= 0, dst= 0; src < array_elements(weights->weight[level]); src++)
{
if (weights->weight[level][src] != 0)
weights->weight[level][dst++]= weights->weight[level][src];
}
for ( ; dst < array_elements(weights->weight[level]) ; dst++)
weights->weight[level][dst]= 0;
if (options->case_first_upper && level == 2)
{
/*
Invert weights for secondary level to
sort upper case letters before their
lower case counter part.
*/
for (dst= 0; dst < array_elements(weights->weight[level]); dst++)
{
if (weights->weight[level][dst] == 0)
break;
if (weights->weight[level][dst] >= 0x20)
{
fprintf(stderr, "Secondary level is too large: %04X\n",
(int) weights->weight[level][dst]);
}
weights->weight[level][dst]= (uint16) (0x20 - weights->weight[level][dst]);
}
}
}
static void
my_ducet_weight_normalize(MY_DUCET_WEIGHT *weights, const OPT *options)
{
uint i;
for (i= 0; i < array_elements(weights->weight); i++)
my_ducet_weight_normalize_on_level(weights, i, options);
}
static void
my_ducet_normalize(MY_DUCET *ducet, const OPT *options)
{
uint i;
for (i= 0; i < array_elements(ducet->single_chars); i++)
my_ducet_weight_normalize(&ducet->single_chars[i].weight, options);
for (i= 0; i < array_elements(ducet->contractions.item); i++)
my_ducet_weight_normalize(&ducet->contractions.item[i].weights, options);
}
static my_bool
my_ducet_contraction_list_add(MY_DUCET_CONTRACTION_LIST *dst,
const MY_DUCET_CHARS *chars,
const MY_DUCET_WEIGHT *weights)
{
if (dst->nitems >= array_elements(dst->item))
{
fprintf(stderr, "Too many contractions\n");
return TRUE;
}
dst->item[dst->nitems].chars= *chars;
dst->item[dst->nitems].weights= *weights;
dst->nitems++;
return FALSE;
}
#if 0
#define MY_UCA_NPAGES 1024
#define MY_UCA_NCHARS 64
#define MY_UCA_CMASK 63
#define MY_UCA_PSHIFT 6
#else
#define MY_UCA_NPAGES 4352 /* 0x110000 characters / 0x100 chars per page */
#define MY_UCA_NCHARS 256
#define MY_UCA_CMASK 255
#define MY_UCA_PSHIFT 8
#endif
/* Name prefix that goes into page weight array names after global_name_prefix */
static const char *pname_prefix[]= {"_p", "_p", "_p"};
/* Name suffix that goes into page weight array names after page number */
static const char *pname_suffix[]= {"", "_secondary", "_tertiary"};
void usage(const char *prog)
{
printf("Usage:\n");
printf("%s [options] filename\n", prog);
}
static inline int lstrncmp(const char *str, const LEX_CSTRING lstr)
{
return strncmp(lstr.str, str, lstr.length);
}
int process_option(OPT *options, const char *opt)
{
static const LEX_CSTRING opt_name_prefix= {STRING_WITH_LEN("--name-prefix=")};
static const LEX_CSTRING opt_levels= {STRING_WITH_LEN("--levels=")};
static const LEX_CSTRING opt_no_contractions= {STRING_WITH_LEN("--no-contractions")};
static const LEX_CSTRING opt_case_first= {STRING_WITH_LEN("--case-first=")};
if (!lstrncmp(opt, opt_name_prefix))
{
options->name_prefix= opt + opt_name_prefix.length;
return 0;
}
if (!lstrncmp(opt, opt_levels))
{
options->levels= (uint) strtoul(opt + opt_levels.length, NULL, 10);
if (options->levels < 1 || options->levels > 3)
{
printf("Bad --levels value\n");
return 1;
}
return 0;
}
if (!lstrncmp(opt, opt_case_first))
{
const char *value= opt + opt_case_first.length;
if (!strcasecmp(value, "upper"))
{
options->case_first_upper= TRUE;
return 0;
}
if (!strcasecmp(value, "lower"))
{
options->case_first_upper= FALSE;
return 0;
}
fprintf(stderr, "Bad option: %s\n", opt);
return 1;
}
if (!strcmp(opt, opt_no_contractions.str))
{
options->no_contractions= TRUE;
return 0;
}
printf("Unknown option: %s\n", opt);
return 1;
}
int process_options(OPT *options, int ac, char **av)
{
int i;
for (i= 1; i < ac; i++)
{
if (!strncmp(av[i], "--", 2))
{
if (process_option(options, av[i]))
return 1;
}
else
{
if (i + 1 != ac)
{
usage(av[0]);
return 1;
}
options->filename= av[i];
return 0;
}
}
usage(av[0]);
return 1;
}
FILE *open_file(const char *name)
{
if (!strcmp(name, "-"))
return stdin;
return fopen(name, "r");
}
void close_file(FILE *file)
{
if (file != stdin)
fclose(file);
}
char *strrtrim(char *str)
{
char *end= str + strlen(str);
for ( ; str < end; end--)
{
if (end[-1] != '\r' && end[-1] != '\n' &&
end[-1] != ' ' && end[-1] != '\t')
break;
end[-1]= '\0';
}
return str;
}
/*
Parse a line starting with '@'.
As of 14.0.0, allkeys.txt has @version and @implicitweights lines.
Only @version is parsed here.
It could also be possible to parse @implicitweights to automatically
generate routines responsible for implicit weight handling for Siniform
ideographic scripts (Tangut, Nushu, Khitan). But as there are only a few
of them at the moment, it was easier to write these routines in ctype-uca.h
manually. So @implicitweights lines are ignored here.
*/
my_bool parse_at_line(MY_DUCET *ducet, const char *str)
{
static const LEX_CSTRING version= {STRING_WITH_LEN("@version ")};
if (!lstrncmp(str, version))
{
/*
Examples:
@version 4.0.0
@version 5.2.0
@version 14.0.0
*/
const char *src= str + version.length;
long n[3]= {0};
uint pos;
int length;
length= snprintf(ducet->version_str, sizeof(ducet->version_str)-1,
"%s", src);
ducet->version_str[length]= '\0';
for (pos= 0 ; pos < 3; pos++)
{
char *endptr;
n[pos]= strtol(src, &endptr, 10);
if (*endptr != '.' && *endptr != '\r' && *endptr != '\n' && *endptr != 0)
return TRUE;
src= endptr + 1;
}
ducet->version= MY_UCA_VERSION_ID(n[0], n[1], n[2]);
}
return FALSE;
}
static void
parse_chars(MY_DUCET_CHARS *dst, char *str)
{
char *s;
const char *delim= " \t";
dst->length= 0;
for (s= strtok(str, delim); s ; s= strtok(NULL, delim))
{
my_wc_t code= (my_wc_t) strtoul(s, NULL, 16);
if (dst->length < array_elements(dst->wc))
dst->wc[dst->length]= code;
dst->length++;
}
}
static void
parse_weights(MY_DUCET_WEIGHT *dst, my_bool *is_variable, char *weight)
{
const char *delim= " []";
size_t w;
char *weights[64];
char *s;
dst->weight_length= 0;
*is_variable= FALSE;
for (s= strtok(weight, delim) ; s ; s= strtok(NULL, delim))
{
if (dst->weight_length < array_elements(weights))
weights[dst->weight_length]= s;
dst->weight_length++;
}
set_if_smaller(dst->weight_length, MY_UCA_MAX_WEIGHT_SIZE-1);
for (w= 0; w < dst->weight_length ; w++)
{
size_t partnum= 0;
for (s= weights[w]; *s ;)
{
char *endptr;
uint part= (uint) strtoul(s + 1, &endptr, 16);
if (w == 0 && s[0] == '*')
*is_variable= TRUE;
if (part > 0xFFFF)
fprintf(stderr, "Weight is too large: %X\n", (uint) part);
dst->weight[partnum][w]= (uint16) part;
s= endptr;
partnum++;
}
}
}
static void
print_one_logical_position(const OPT *options,
const char *name,
const char *name2,
my_wc_t value)
{
printf("#define %s_%s%s 0x%04X\n",
options->name_prefix, name, name2, (int) value);
}
static void
my_ducet_weight_print_canonical(const MY_DUCET_WEIGHT *src)
{
uint i;
for (i= 0; i < array_elements(src->weight[0]); i++)
{
my_bool zero= src->weight[0][i] == 0 &&
src->weight[1][i] == 0 &&
src->weight[2][i] == 0;
if (zero && i > 0)
break;
printf("[.%04X.%04X.%04X]",
src->weight[0][i],
src->weight[1][i],
src->weight[2][i]);
}
}
static void
my_ducet_logical_position_print(const MY_DUCET_LOGICAL_POSITION *src,
const char *name,
const MY_DUCET *ducet,
const OPT *options)
{
printf("/*\n");
my_ducet_weight_print_canonical(&ducet->single_chars[src->first].weight);
printf("\n");
my_ducet_weight_print_canonical(&ducet->single_chars[src->last].weight);
printf("\n*/\n");
print_one_logical_position(options, name, "_first", src->first);
print_one_logical_position(options, name, "_last", src->last);
printf("\n");
}
static void
print_logical_positions(const MY_DUCET_LOGICAL_POSITIONS *src,
const MY_DUCET *ducet,
const OPT *opt)
{
my_ducet_logical_position_print(&src->tertiary_ignorable, "tertiary_ignorable", ducet, opt);
my_ducet_logical_position_print(&src->secondary_ignorable, "secondary_ignorable", ducet, opt);
my_ducet_logical_position_print(&src->primary_ignorable, "primary_ignorable", ducet, opt);
my_ducet_logical_position_print(&src->variable, "variable", ducet, opt);
my_ducet_logical_position_print(&src->non_ignorable, "non_ignorable", ducet, opt);
}
static void
print_version(const MY_DUCET *ducet, const OPT *opt)
{
printf("\n");
printf("#define %s_version %d /* %s */\n",
opt->name_prefix, ducet->version, ducet->version_str);
printf("\n");
}
static void
print_contraction(const MY_DUCET_CONTRACTION *c,
uint level,
const OPT *options)
{
size_t j;
printf("{");
printf("{");
for (j= 0; j < array_elements(c->chars.wc); j++)
{
if (j > 0)
printf(", ");
if (c->chars.wc[j])
printf("0x%04X", (uint) c->chars.wc[j]);
else
{
printf("0");
break;
}
}
printf("}, ");
printf("{");
for (j= 0; j < array_elements(c->weights.weight[level]); j++)
{
if (j > 0)
printf(", ");
if (c->weights.weight[level][j])
printf("0x%04X", (uint) c->weights.weight[level][j]);
else
{
printf("0");
break;
}
}
printf("}, FALSE");
printf("},\n");
}
static void
print_contraction_list(const MY_DUCET_CONTRACTION_LIST *src, uint level, const OPT *opt)
{
size_t i;
printf("\n\n/* Contractions, level %d */\n", level);
printf("static MY_CONTRACTION %s_contractions%s[%d]={\n",
opt->name_prefix, pname_suffix[level], (int) src->nitems);
for (i= 0; i < src->nitems; i++)
{
const MY_DUCET_CONTRACTION *c= &src->item[i];
print_contraction(c, level, opt);
}
printf("};\n\n");
}
int main(int ac, char **av)
{
char str[1024];
static MY_DUCET ducet;
my_wc_t code;
uint w;
int pageloaded[MY_UCA_NPAGES];
FILE *file;
OPT options= defaults;
if (process_options(&options, ac, av))
return 1;
if (!(file= open_file(options.filename)))
{
printf("Could not open %s for reading\n", options.filename);
return 1;
}
bzero(&ducet, sizeof(ducet));
bzero(pageloaded, sizeof(pageloaded));
while (fgets(str, sizeof(str), file))
{
char *comment;
char *weight;
MY_DUCET_CHARS chr = {0};
if (str[0] == '#')
continue;
if (str[0] == '@')
{
parse_at_line(&ducet, strrtrim(str));
continue;
}
if ((weight= strchr(str, ';')))
{
*weight++= '\0';
for ( ; *weight==' ' ; weight++);
}
else
continue;
if ((comment=strchr(weight, '#')))
{
*comment++= '\0';
}else
continue;
parse_chars(&chr, str);
if (!chr.length)
continue;
if (chr.length == 1)
{
if (chr.wc[0] > MAX_ALLOWED_CODE)
continue;
parse_weights(&ducet.single_chars[chr.wc[0]].weight,
&ducet.single_chars[chr.wc[0]].is_variable,
weight);
/* Mark that a character from this page was loaded */
pageloaded[chr.wc[0] >> MY_UCA_PSHIFT]++;
}
else
{
MY_DUCET_WEIGHT weights= {0};
my_bool dummy;
if (chr.length >= MY_UCA_MAX_CONTRACTION)
{
fprintf(stderr, "Too long contraction: %d\n", (int) chr.length);
continue;
}
parse_weights(&weights, &dummy, weight);
my_ducet_contraction_list_add(&ducet.contractions, &chr, &weights);
continue;
}
}
close_file(file);
/* Now set implicit weights */
for (code=0; code <= MAX_ALLOWED_CODE; code++)
{
uint level;
if (ducet.single_chars[code].weight.weight_length)
continue;
for (level= 0; level < 4; level++)
{
MY_UCA_IMPLICIT_WEIGHT weight;
weight= my_uca_implicit_weight_on_level(ducet.version, code, level);
ducet.single_chars[code].weight.weight[level][0]= weight.weight[0];
ducet.single_chars[code].weight.weight[level][1]= weight.weight[1];
}
ducet.single_chars[code].weight.weight_length= 2;
}
my_ducet_normalize(&ducet, &options);
my_ducet_logical_positions_init(&ducet.logical_positions, &ducet);
printf("/*\n");
printf(" Generated from allkeys.txt version '%s'\n", ducet.version_str);
printf("*/\n");
for (w=0; w < options.levels; w++)
{
my_wc_t page;
int pagemaxlen[MY_UCA_NPAGES];
for (page=0; page < MY_UCA_NPAGES; page++)
{
my_wc_t offs;
size_t maxnum= 0;
size_t nchars= 0;
size_t mchars;
size_t ndefs= 0;
size_t code_line_start= page * MY_UCA_NCHARS;
pagemaxlen[page]= 0;
/*
Skip this page if no weights were loaded
*/
if (!pageloaded[page])
continue;
/*
Calculate maximum weight
length for this page
*/
for (offs=0; offs < MY_UCA_NCHARS; offs++)
{
size_t i, num;
code= page*MY_UCA_NCHARS+offs;
/* Calculate only non-zero weights */
for (num=0, i=0; i < ducet.single_chars[code].weight.weight_length; i++)
if (ducet.single_chars[code].weight.weight[w][i])
num++;
maxnum= maxnum < num ? num : maxnum;
/* Check if default weight */
if (w == 1 && num == 1)
{
/* 0020 0000 ... */
if (ducet.single_chars[code].weight.weight[w][0] == 0x0020)
ndefs++;
}
else if (w == 2 && num == 1)
{
/* 0002 0000 ... */
if (ducet.single_chars[code].weight.weight[w][0] == 0x0002)
ndefs++;
}
}
maxnum++;
/*
If the page have only default weights
then no needs to dump it, skip.
*/
if (ndefs == MY_UCA_NCHARS)
{
continue;
}
switch (maxnum)
{
case 0: mchars= 8; break;
case 1: mchars= 8; break;
case 2: mchars= 8; break;
case 3: mchars= 9; break;
case 4: mchars= 8; break;
default: mchars= ducet.single_chars[code].weight.weight_length;
}
pagemaxlen[page]= (int) maxnum;
/*
Now print this page
*/
printf("static const uint16 %s%s%03X%s[]= { /* %04X (%d weights per char) */\n",
options.name_prefix, pname_prefix[w], (int) page, pname_suffix[w],
(int) page*MY_UCA_NCHARS, (int) maxnum);
for (offs=0; offs < MY_UCA_NCHARS; offs++)
{
size_t i;
code= page*MY_UCA_NCHARS+offs;
for (i=0; i < maxnum; i++)
{
int tmp= ducet.single_chars[code].weight.weight[w][i];
printf("0x%04X", tmp);
if ((offs+1 != MY_UCA_NCHARS) || (i+1!=maxnum))
printf(",");
else
printf(" ");
nchars++;
}
if (nchars >=mchars)
{
printf(" /* %04X */\n", (int) code_line_start);
code_line_start= code + 1;
nchars=0;
}
else
{
printf(" ");
}
}
printf("};\n\n");
}
printf("const uchar %s_length%s[%d]={\n",
options.name_prefix, pname_suffix[w], MY_UCA_NPAGES);
for (page=0; page < MY_UCA_NPAGES; page++)
{
printf("%d%s%s",pagemaxlen[page],page<MY_UCA_NPAGES-1?",":"",(page+1) % 16 ? "":"\n");
}
printf("};\n");
printf("static const uint16 *%s_weight%s[%d]={\n",
options.name_prefix, pname_suffix[w], MY_UCA_NPAGES);
for (page=0; page < MY_UCA_NPAGES; page++)
{
const char *comma= page < MY_UCA_NPAGES-1 ? "," : "";
const char *nline= (page+1) % 4 ? "" : "\n";
if (!pagemaxlen[page])
printf("NULL %s%s%s", w ? " ": "", comma , nline);
else
printf("%s%s%03X%s%s%s",
options.name_prefix, pname_prefix[w], (int) page, pname_suffix[w],
comma, nline);
}
printf("};\n");
if (!options.no_contractions)
print_contraction_list(&ducet.contractions, w, &options);
}
print_version(&ducet, &options);
print_logical_positions(&ducet.logical_positions, &ducet, &options);
return 0;
}
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