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|
/*****************************************************************************
Copyright (c) 2011, 2018, Oracle and/or its affiliates. All Rights Reserved.
Copyright (c) 2016, 2022, MariaDB Corporation.
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 Street, Fifth Floor, Boston, MA 02110-1335 USA
*****************************************************************************/
/******************************************************************//**
@file include/fts0fts.h
Full text search header file
Created 2011/09/02 Sunny Bains
***********************************************************************/
#pragma once
#include "data0type.h"
#include "data0types.h"
#include "mem0mem.h"
#include "rem0types.h"
#include "row0types.h"
#include "trx0types.h"
#include "ut0vec.h"
#include "ut0rbt.h"
#include "ut0wqueue.h"
#include "que0types.h"
#include "ft_global.h"
#include "mysql/plugin_ftparser.h"
/** "NULL" value of a document id. */
#define FTS_NULL_DOC_ID 0
/** FTS hidden column that is used to map to and from the row */
#define FTS_DOC_ID_COL_NAME "FTS_DOC_ID"
/** The name of the index created by FTS */
#define FTS_DOC_ID_INDEX_NAME "FTS_DOC_ID_INDEX"
#define FTS_DOC_ID_INDEX_NAME_LEN 16
/** Doc ID is a 8 byte value */
#define FTS_DOC_ID_LEN 8
/** The number of fields to sort when we build FT index with
FIC. Three fields are sort: (word, doc_id, position) */
#define FTS_NUM_FIELDS_SORT 3
/** Maximum number of rows in a table, smaller than which, we will
optimize using a 4 byte Doc ID for FIC merge sort to reduce sort size */
#define MAX_DOC_ID_OPT_VAL 1073741824
/** Document id type. */
typedef ib_id_t doc_id_t;
/** doc_id_t printf format */
#define FTS_DOC_ID_FORMAT IB_ID_FMT
/** Convert document id to the InnoDB (BIG ENDIAN) storage format. */
#define fts_write_doc_id(d, s) mach_write_to_8(d, s)
/** Read a document id to internal format. */
#define fts_read_doc_id(s) mach_read_from_8(s)
/** Bind the doc id to a variable */
#define fts_bind_doc_id(i, n, v) pars_info_bind_int8_literal(i, n, v)
/** Defines for FTS query mode, they have the same values as
those defined in mysql file ft_global.h */
#define FTS_NL 0
#define FTS_BOOL 1
#define FTS_SORTED 2
#define FTS_EXPAND 4
#define FTS_NO_RANKING 8
#define FTS_PROXIMITY 16
#define FTS_PHRASE 32
#define FTS_OPT_RANKING 64
#define FTS_INDEX_TABLE_IND_NAME "FTS_INDEX_TABLE_IND"
/** The number of FTS index partitions for a fulltext idnex */
#define FTS_NUM_AUX_INDEX 6
/** Threshold where our optimize thread automatically kicks in */
#define FTS_OPTIMIZE_THRESHOLD 10000000
/** Maximum possible Fulltext word length in bytes (assuming mbmaxlen=4) */
#define FTS_MAX_WORD_LEN (HA_FT_MAXCHARLEN * 4)
/** Maximum possible Fulltext word length (in characters) */
#define FTS_MAX_WORD_LEN_IN_CHAR HA_FT_MAXCHARLEN
/** Number of columns in FTS AUX Tables */
#define FTS_DELETED_TABLE_NUM_COLS 1
#define FTS_CONFIG_TABLE_NUM_COLS 2
#define FTS_AUX_INDEX_TABLE_NUM_COLS 5
/** DELETED_TABLE(doc_id BIGINT UNSIGNED) */
#define FTS_DELETED_TABLE_COL_LEN 8
/** CONFIG_TABLE(key CHAR(50), value CHAR(200)) */
#define FTS_CONFIG_TABLE_KEY_COL_LEN 50
#define FTS_CONFIG_TABLE_VALUE_COL_LEN 200
#define FTS_INDEX_FIRST_DOC_ID_LEN 8
#define FTS_INDEX_LAST_DOC_ID_LEN 8
#define FTS_INDEX_DOC_COUNT_LEN 4
/* BLOB COLUMN, 0 means VARIABLE SIZE */
#define FTS_INDEX_ILIST_LEN 0
/** Variable specifying the FTS parallel sort degree */
extern ulong fts_sort_pll_degree;
/** Variable specifying the number of word to optimize for each optimize table
call */
extern ulong fts_num_word_optimize;
/** Variable specifying whether we do additional FTS diagnostic printout
in the log */
extern char fts_enable_diag_print;
/** FTS rank type, which will be between 0 .. 1 inclusive */
typedef float fts_rank_t;
/** Type of a row during a transaction. FTS_NOTHING means the row can be
forgotten from the FTS system's POV, FTS_INVALID is an internal value used
to mark invalid states.
NOTE: Do not change the order or value of these, fts_trx_row_get_new_state
depends on them being exactly as they are. */
enum fts_row_state {
FTS_INSERT = 0,
FTS_MODIFY,
FTS_DELETE,
FTS_NOTHING,
FTS_INVALID
};
/** The FTS table types. */
enum fts_table_type_t {
FTS_INDEX_TABLE, /*!< FTS auxiliary table that is
specific to a particular FTS index
on a table */
FTS_COMMON_TABLE /*!< FTS auxiliary table that is common
for all FTS index on a table */
};
struct fts_doc_t;
struct fts_cache_t;
struct fts_token_t;
struct fts_doc_ids_t;
struct fts_index_cache_t;
/** Initialize the "fts_table" for internal query into FTS auxiliary
tables */
#define FTS_INIT_FTS_TABLE(fts_table, m_suffix, m_type, m_table)\
do { \
(fts_table)->suffix = m_suffix; \
(fts_table)->type = m_type; \
(fts_table)->table_id = m_table->id; \
(fts_table)->table = m_table; \
} while (0);
#define FTS_INIT_INDEX_TABLE(fts_table, m_suffix, m_type, m_index)\
do { \
(fts_table)->suffix = m_suffix; \
(fts_table)->type = m_type; \
(fts_table)->table_id = m_index->table->id; \
(fts_table)->table = m_index->table; \
(fts_table)->index_id = m_index->id; \
} while (0);
/** Information about changes in a single transaction affecting
the FTS system. */
struct fts_trx_t {
trx_t* trx; /*!< InnoDB transaction */
ib_vector_t* savepoints; /*!< Active savepoints, must have at
least one element, the implied
savepoint */
ib_vector_t* last_stmt; /*!< last_stmt */
mem_heap_t* heap; /*!< heap */
};
/** Information required for transaction savepoint handling. */
struct fts_savepoint_t {
char* name; /*!< First entry is always NULL, the
default instance. Otherwise the name
of the savepoint */
ib_rbt_t* tables; /*!< Modified FTS tables */
};
/** Information about changed rows in a transaction for a single table. */
struct fts_trx_table_t {
dict_table_t* table; /*!< table */
fts_trx_t* fts_trx; /*!< link to parent */
ib_rbt_t* rows; /*!< rows changed; indexed by doc-id,
cells are fts_trx_row_t* */
fts_doc_ids_t* added_doc_ids; /*!< list of added doc ids (NULL until
the first addition) */
/*!< for adding doc ids */
que_t* docs_added_graph;
};
/** Information about one changed row in a transaction. */
struct fts_trx_row_t {
doc_id_t doc_id; /*!< Id of the ins/upd/del document */
fts_row_state state; /*!< state of the row */
ib_vector_t* fts_indexes; /*!< The indexes that are affected */
};
/** List of document ids that were added during a transaction. This
list is passed on to a background 'Add' thread and OPTIMIZE, so it
needs its own memory heap. */
struct fts_doc_ids_t {
ib_vector_t* doc_ids; /*!< document ids (each element is
of type doc_id_t). */
ib_alloc_t* self_heap; /*!< Allocator used to create an
instance of this type and the
doc_ids vector */
};
// FIXME: Get rid of this if possible.
/** Since MySQL's character set support for Unicode is woefully inadequate
(it supports basic operations like isalpha etc. only for 8-bit characters),
we have to implement our own. We use UTF-16 without surrogate processing
as our in-memory format. This typedef is a single such character. */
typedef unsigned short ib_uc_t;
/** An UTF-16 ro UTF-8 string. */
struct fts_string_t {
byte* f_str; /*!< string, not necessary terminated in
any way */
ulint f_len; /*!< Length of the string in bytes */
ulint f_n_char; /*!< Number of characters */
};
/** Query ranked doc ids. */
struct fts_ranking_t {
doc_id_t doc_id; /*!< Document id */
fts_rank_t rank; /*!< Rank is between 0 .. 1 */
byte* words; /*!< this contains the words
that were queried
and found in this document */
ulint words_len; /*!< words len */
};
/** Query result. */
struct fts_result_t {
ib_rbt_node_t* current; /*!< Current element */
ib_rbt_t* rankings_by_id; /*!< RB tree of type fts_ranking_t
indexed by doc id */
ib_rbt_t* rankings_by_rank;/*!< RB tree of type fts_ranking_t
indexed by rank */
};
/** This is used to generate the FTS auxiliary table name, we need the
table id and the index id to generate the column specific FTS auxiliary
table name. */
struct fts_table_t {
fts_table_type_t
type; /*!< The auxiliary table type */
table_id_t table_id; /*!< The table id */
index_id_t index_id; /*!< The index id */
const char* suffix; /*!< The suffix of the fts auxiliary
table name, can be NULL, not used
everywhere (yet) */
const dict_table_t*
table; /*!< Parent table */
CHARSET_INFO* charset; /*!< charset info if it is for FTS
index auxiliary table */
};
/** The state of the FTS sub system. */
class fts_t {
public:
/** fts_t constructor.
@param[in] table table with FTS indexes
@param[in,out] heap memory heap where 'this' is stored */
fts_t(
const dict_table_t* table,
mem_heap_t* heap);
/** fts_t destructor. */
~fts_t();
/** Whether the ADDED table record sync-ed after crash recovery */
unsigned added_synced:1;
/** Whether the table holds dict_sys.latch */
unsigned dict_locked:1;
/** Work queue for scheduling jobs for the FTS 'Add' thread, or NULL
if the thread has not yet been created. Each work item is a
fts_trx_doc_ids_t*. */
ib_wqueue_t* add_wq;
/** FTS memory buffer for this table, or NULL if the table has no FTS
index. */
fts_cache_t* cache;
/** FTS doc id hidden column number in the CLUSTERED index. */
ulint doc_col;
/** Vector of FTS indexes, this is mainly for caching purposes. */
ib_vector_t* indexes;
/** Whether the table exists in fts_optimize_wq;
protected by fts_optimize_wq mutex */
bool in_queue;
/** Whether the sync message exists in fts_optimize_wq;
protected by fts_optimize_wq mutex */
bool sync_message;
/** Heap for fts_t allocation. */
mem_heap_t* fts_heap;
};
struct fts_stopword_t;
/** status bits for fts_stopword_t status field. */
#define STOPWORD_NOT_INIT 0x1
#define STOPWORD_OFF 0x2
#define STOPWORD_FROM_DEFAULT 0x4
#define STOPWORD_USER_TABLE 0x8
extern const char* fts_default_stopword[];
/** Variable specifying the maximum FTS cache size for each table */
extern Atomic_relaxed<size_t> fts_max_cache_size;
/** Variable specifying the total memory allocated for FTS cache */
extern Atomic_relaxed<size_t> fts_max_total_cache_size;
/** Variable specifying the FTS result cache limit for each query */
extern size_t fts_result_cache_limit;
/** Variable specifying the maximum FTS max token size */
extern ulong fts_max_token_size;
/** Variable specifying the minimum FTS max token size */
extern ulong fts_min_token_size;
/** Whether the total memory used for FTS cache is exhausted, and we will
need a sync to free some memory */
extern bool fts_need_sync;
/******************************************************************//**
Create a FTS cache. */
fts_cache_t*
fts_cache_create(
/*=============*/
dict_table_t* table); /*!< table owns the FTS cache */
/******************************************************************//**
Create a FTS index cache.
@return Index Cache */
fts_index_cache_t*
fts_cache_index_cache_create(
/*=========================*/
dict_table_t* table, /*!< in: table with FTS index */
dict_index_t* index); /*!< in: FTS index */
/******************************************************************//**
Get the next available document id. This function creates a new
transaction to generate the document id.
@return DB_SUCCESS if OK */
dberr_t
fts_get_next_doc_id(
/*================*/
const dict_table_t* table, /*!< in: table */
doc_id_t* doc_id);/*!< out: new document id */
/******************************************************************//**
Create a new fts_doc_ids_t.
@return new fts_doc_ids_t. */
fts_doc_ids_t*
fts_doc_ids_create(void);
/*=====================*/
/** Free fts_doc_ids_t */
inline void fts_doc_ids_free(fts_doc_ids_t* doc_ids)
{
mem_heap_free(static_cast<mem_heap_t*>(doc_ids->self_heap->arg));
}
/******************************************************************//**
Notify the FTS system about an operation on an FTS-indexed table. */
void
fts_trx_add_op(
/*===========*/
trx_t* trx, /*!< in: InnoDB transaction */
dict_table_t* table, /*!< in: table */
doc_id_t doc_id, /*!< in: doc id */
fts_row_state state, /*!< in: state of the row */
ib_vector_t* fts_indexes); /*!< in: FTS indexes affected
(NULL=all) */
/******************************************************************//**
Free an FTS trx. */
void
fts_trx_free(
/*=========*/
fts_trx_t* fts_trx); /*!< in, own: FTS trx */
/** Creates the common auxiliary tables needed for supporting an FTS index
on the given table.
The following tables are created.
CREATE TABLE $FTS_PREFIX_DELETED
(doc_id BIGINT UNSIGNED, UNIQUE CLUSTERED INDEX on doc_id)
CREATE TABLE $FTS_PREFIX_DELETED_CACHE
(doc_id BIGINT UNSIGNED, UNIQUE CLUSTERED INDEX on doc_id)
CREATE TABLE $FTS_PREFIX_BEING_DELETED
(doc_id BIGINT UNSIGNED, UNIQUE CLUSTERED INDEX on doc_id)
CREATE TABLE $FTS_PREFIX_BEING_DELETED_CACHE
(doc_id BIGINT UNSIGNED, UNIQUE CLUSTERED INDEX on doc_id)
CREATE TABLE $FTS_PREFIX_CONFIG
(key CHAR(50), value CHAR(200), UNIQUE CLUSTERED INDEX on key)
@param[in,out] trx transaction
@param[in] table table with FTS index
@param[in] skip_doc_id_index Skip index on doc id
@return DB_SUCCESS if succeed */
dberr_t
fts_create_common_tables(
trx_t* trx,
dict_table_t* table,
bool skip_doc_id_index)
MY_ATTRIBUTE((nonnull, warn_unused_result));
/** Creates the column specific ancillary tables needed for supporting an
FTS index on the given table.
All FTS AUX Index tables have the following schema.
CREAT TABLE $FTS_PREFIX_INDEX_[1-6](
word VARCHAR(FTS_MAX_WORD_LEN),
first_doc_id INT NOT NULL,
last_doc_id UNSIGNED NOT NULL,
doc_count UNSIGNED INT NOT NULL,
ilist VARBINARY NOT NULL,
UNIQUE CLUSTERED INDEX ON (word, first_doc_id))
@param[in,out] trx dictionary transaction
@param[in] index fulltext index
@param[in] id table id
@return DB_SUCCESS or error code */
dberr_t
fts_create_index_tables(trx_t* trx, const dict_index_t* index, table_id_t id)
MY_ATTRIBUTE((nonnull, warn_unused_result));
/******************************************************************//**
Add the FTS document id hidden column. */
void
fts_add_doc_id_column(
/*==================*/
dict_table_t* table, /*!< in/out: Table with FTS index */
mem_heap_t* heap); /*!< in: temporary memory heap, or NULL */
/** Lock the internal FTS_ tables for an index, before fts_drop_index_tables().
@param trx transaction
@param index fulltext index */
dberr_t fts_lock_index_tables(trx_t *trx, const dict_index_t &index);
/** Lock the internal common FTS_ tables, before fts_drop_common_tables().
@param trx transaction
@param table table containing FULLTEXT INDEX
@return DB_SUCCESS or error code */
dberr_t fts_lock_common_tables(trx_t *trx, const dict_table_t &table);
/** Lock the internal FTS_ tables for table, before fts_drop_tables().
@param trx transaction
@param table table containing FULLTEXT INDEX
@return DB_SUCCESS or error code */
dberr_t fts_lock_tables(trx_t *trx, const dict_table_t &table);
/** Drop the internal FTS_ tables for table.
@param trx transaction
@param table table containing FULLTEXT INDEX
@return DB_SUCCESS or error code */
dberr_t fts_drop_tables(trx_t *trx, const dict_table_t &table);
/******************************************************************//**
The given transaction is about to be committed; do whatever is necessary
from the FTS system's POV.
@return DB_SUCCESS or error code */
dberr_t
fts_commit(
/*=======*/
trx_t* trx) /*!< in: transaction */
MY_ATTRIBUTE((warn_unused_result));
/** FTS Query entry point.
@param[in,out] trx transaction
@param[in] index fts index to search
@param[in] flags FTS search mode
@param[in] query_str FTS query
@param[in] query_len FTS query string len in bytes
@param[in,out] result result doc ids
@return DB_SUCCESS if successful otherwise error code */
dberr_t
fts_query(
trx_t* trx,
dict_index_t* index,
uint flags,
const byte* query_str,
ulint query_len,
fts_result_t** result)
MY_ATTRIBUTE((warn_unused_result));
/******************************************************************//**
Retrieve the FTS Relevance Ranking result for doc with doc_id
@return the relevance ranking value. */
float
fts_retrieve_ranking(
/*=================*/
fts_result_t* result, /*!< in: FTS result structure */
doc_id_t doc_id); /*!< in: the interested document
doc_id */
/******************************************************************//**
FTS Query sort result, returned by fts_query() on fts_ranking_t::rank. */
void
fts_query_sort_result_on_rank(
/*==========================*/
fts_result_t* result); /*!< out: result instance
to sort.*/
/******************************************************************//**
FTS Query free result, returned by fts_query(). */
void
fts_query_free_result(
/*==================*/
fts_result_t* result); /*!< in: result instance
to free.*/
/******************************************************************//**
Extract the doc id from the FTS hidden column. */
doc_id_t
fts_get_doc_id_from_row(
/*====================*/
dict_table_t* table, /*!< in: table */
dtuple_t* row); /*!< in: row whose FTS doc id we
want to extract.*/
/** Extract the doc id from the record that belongs to index.
@param[in] rec record containing FTS_DOC_ID
@param[in] index index of rec
@param[in] offsets rec_get_offsets(rec,index)
@return doc id that was extracted from rec */
doc_id_t
fts_get_doc_id_from_rec(
const rec_t* rec,
const dict_index_t* index,
const rec_offs* offsets);
/** Add new fts doc id to the update vector.
@param[in] table the table that contains the FTS index.
@param[in,out] ufield the fts doc id field in the update vector.
No new memory is allocated for this in this
function.
@param[in,out] next_doc_id the fts doc id that has been added to the
update vector. If 0, a new fts doc id is
automatically generated. The memory provided
for this argument will be used by the update
vector. Ensure that the life time of this
memory matches that of the update vector.
@return the fts doc id used in the update vector */
doc_id_t
fts_update_doc_id(
dict_table_t* table,
upd_field_t* ufield,
doc_id_t* next_doc_id);
/******************************************************************//**
FTS initialize. */
void
fts_startup(void);
/*==============*/
/******************************************************************//**
Create an instance of fts_t.
@return instance of fts_t */
fts_t*
fts_create(
/*=======*/
dict_table_t* table); /*!< out: table with FTS
indexes */
/**********************************************************************//**
Free the FTS resources. */
void
fts_free(
/*=====*/
dict_table_t* table); /*!< in/out: table with
FTS indexes */
/*********************************************************************//**
Run OPTIMIZE on the given table.
@return DB_SUCCESS if all OK */
dberr_t
fts_optimize_table(
/*===============*/
dict_table_t* table); /*!< in: table to optimiza */
/**********************************************************************//**
Startup the optimize thread and create the work queue. */
void
fts_optimize_init(void);
/*====================*/
/****************************************************************//**
Drops index ancillary tables for a FTS index
@return DB_SUCCESS or error code */
dberr_t fts_drop_index_tables(trx_t *trx, const dict_index_t &index)
MY_ATTRIBUTE((warn_unused_result));
/** Add the table to add to the OPTIMIZER's list.
@param[in] table table to add */
void
fts_optimize_add_table(
dict_table_t* table);
/******************************************************************//**
Remove the table from the OPTIMIZER's list. We do wait for
acknowledgement from the consumer of the message. */
void
fts_optimize_remove_table(
/*======================*/
dict_table_t* table); /*!< in: table to remove */
/** Shutdown fts optimize thread. */
void
fts_optimize_shutdown();
/**********************************************************************//**
Take a FTS savepoint. */
void
fts_savepoint_take(
/*===============*/
fts_trx_t* fts_trx, /*!< in: fts transaction */
const char* name); /*!< in: savepoint name */
/**********************************************************************//**
Refresh last statement savepoint. */
void
fts_savepoint_laststmt_refresh(
/*===========================*/
trx_t* trx); /*!< in: transaction */
/**********************************************************************//**
Release the savepoint data identified by name. */
void
fts_savepoint_release(
/*==================*/
trx_t* trx, /*!< in: transaction */
const char* name); /*!< in: savepoint name */
/** Clear cache.
@param[in,out] cache fts cache */
void
fts_cache_clear(
fts_cache_t* cache);
/*********************************************************************//**
Initialize things in cache. */
void
fts_cache_init(
/*===========*/
fts_cache_t* cache); /*!< in: cache */
/*********************************************************************//**
Rollback to and including savepoint indentified by name. */
void
fts_savepoint_rollback(
/*===================*/
trx_t* trx, /*!< in: transaction */
const char* name); /*!< in: savepoint name */
/*********************************************************************//**
Rollback to and including savepoint indentified by name. */
void
fts_savepoint_rollback_last_stmt(
/*=============================*/
trx_t* trx); /*!< in: transaction */
/** Run SYNC on the table, i.e., write out data from the cache to the
FTS auxiliary INDEX table and clear the cache at the end.
@param[in,out] table fts table
@return DB_SUCCESS on success, error code on failure. */
dberr_t fts_sync_table(dict_table_t* table);
/****************************************************************//**
Create an FTS index cache. */
CHARSET_INFO*
fts_index_get_charset(
/*==================*/
dict_index_t* index); /*!< in: FTS index */
/*********************************************************************//**
Get the initial Doc ID by consulting the CONFIG table
@return initial Doc ID */
doc_id_t
fts_init_doc_id(
/*============*/
const dict_table_t* table); /*!< in: table */
/******************************************************************//**
compare two character string according to their charset. */
extern
int
innobase_fts_text_cmp(
/*==================*/
const void* cs, /*!< in: Character set */
const void* p1, /*!< in: key */
const void* p2); /*!< in: node */
/******************************************************************//**
Makes all characters in a string lower case. */
extern
size_t
innobase_fts_casedn_str(
/*====================*/
CHARSET_INFO* cs, /*!< in: Character set */
char* src, /*!< in: string to put in
lower case */
size_t src_len, /*!< in: input string length */
char* dst, /*!< in: buffer for result
string */
size_t dst_len); /*!< in: buffer size */
/******************************************************************//**
compare two character string according to their charset. */
extern
int
innobase_fts_text_cmp_prefix(
/*=========================*/
const void* cs, /*!< in: Character set */
const void* p1, /*!< in: key */
const void* p2); /*!< in: node */
/*************************************************************//**
Get the next token from the given string and store it in *token. */
extern
ulint
innobase_mysql_fts_get_token(
/*=========================*/
CHARSET_INFO* charset, /*!< in: Character set */
const byte* start, /*!< in: start of text */
const byte* end, /*!< in: one character past
end of text */
fts_string_t* token); /*!< out: token's text */
/*************************************************************//**
Get token char size by charset
@return the number of token char size */
ulint
fts_get_token_size(
/*===============*/
const CHARSET_INFO* cs, /*!< in: Character set */
const char* token, /*!< in: token */
ulint len); /*!< in: token length */
/*************************************************************//**
FULLTEXT tokenizer internal in MYSQL_FTPARSER_SIMPLE_MODE
@return 0 if tokenize sucessfully */
int
fts_tokenize_document_internal(
/*===========================*/
MYSQL_FTPARSER_PARAM* param, /*!< in: parser parameter */
const char* doc, /*!< in: document to tokenize */
int len); /*!< in: document length */
/*********************************************************************//**
Fetch COUNT(*) from specified table.
@return the number of rows in the table */
ulint
fts_get_rows_count(
/*===============*/
fts_table_t* fts_table); /*!< in: fts table to read */
/*************************************************************//**
Get maximum Doc ID in a table if index "FTS_DOC_ID_INDEX" exists
@return max Doc ID or 0 if index "FTS_DOC_ID_INDEX" does not exist */
doc_id_t
fts_get_max_doc_id(
/*===============*/
dict_table_t* table); /*!< in: user table */
/** Check whether a stopword table is in the right format.
@param stopword_table_name table name
@param row_end name of the system-versioning end column, or "value"
@return the stopword column charset
@retval NULL if the table does not exist or qualify */
CHARSET_INFO *fts_valid_stopword_table(const char *stopword_table_name,
const char **row_end= NULL);
/****************************************************************//**
This function loads specified stopword into FTS cache
@return true if success */
bool
fts_load_stopword(
/*==============*/
const dict_table_t*
table, /*!< in: Table with FTS */
trx_t* trx, /*!< in: Transaction */
const char* session_stopword_table, /*!< in: Session stopword table
name */
bool stopword_is_on, /*!< in: Whether stopword
option is turned on/off */
bool reload); /*!< in: Whether it is during
reload of FTS table */
/****************************************************************//**
Read the rows from the FTS index
@return DB_SUCCESS if OK */
dberr_t
fts_table_fetch_doc_ids(
/*====================*/
trx_t* trx, /*!< in: transaction */
fts_table_t* fts_table, /*!< in: aux table */
fts_doc_ids_t* doc_ids); /*!< in: For collecting
doc ids */
/****************************************************************//**
This function brings FTS index in sync when FTS index is first
used. There are documents that have not yet sync-ed to auxiliary
tables from last server abnormally shutdown, we will need to bring
such document into FTS cache before any further operations */
void
fts_init_index(
/*===========*/
dict_table_t* table, /*!< in: Table with FTS */
bool has_cache_lock); /*!< in: Whether we already
have cache lock */
/*******************************************************************//**
Add a newly create index in FTS cache */
void
fts_add_index(
/*==========*/
dict_index_t* index, /*!< FTS index to be added */
dict_table_t* table); /*!< table */
/*******************************************************************//**
Drop auxiliary tables related to an FTS index
@return DB_SUCCESS or error number */
dberr_t
fts_drop_index(
/*===========*/
dict_table_t* table, /*!< in: Table where indexes are dropped */
dict_index_t* index, /*!< in: Index to be dropped */
trx_t* trx); /*!< in: Transaction for the drop */
/****************************************************************//**
Rename auxiliary tables for all fts index for a table
@return DB_SUCCESS or error code */
dberr_t
fts_rename_aux_tables(
/*==================*/
dict_table_t* table, /*!< in: user Table */
const char* new_name, /*!< in: new table name */
trx_t* trx); /*!< in: transaction */
/*******************************************************************//**
Check indexes in the fts->indexes is also present in index cache and
table->indexes list
@return TRUE if all indexes match */
ibool
fts_check_cached_index(
/*===================*/
dict_table_t* table); /*!< in: Table where indexes are dropped */
/** Fetch the document from tuple, tokenize the text data and
insert the text data into fts auxiliary table and
its cache. Moreover this tuple fields doesn't contain any information
about externally stored field. This tuple contains data directly
converted from mysql.
@param[in] ftt FTS transaction table
@param[in] doc_id doc id
@param[in] tuple tuple from where data can be retrieved
and tuple should be arranged in table
schema order. */
void
fts_add_doc_from_tuple(
fts_trx_table_t*ftt,
doc_id_t doc_id,
const dtuple_t* tuple);
/** Create an FTS trx.
@param[in,out] trx InnoDB Transaction
@return FTS transaction. */
fts_trx_t*
fts_trx_create(
trx_t* trx);
/** Clear all fts resources when there is no internal DOC_ID
and there are no new fts index to add.
@param[in,out] table table where fts is to be freed */
void fts_clear_all(dict_table_t *table);
/** Check whether the given name is fts auxiliary table
and fetch the parent table id and index id
@param[in] name table name
@param[in,out] table_id parent table id
@param[in,out] index_id index id
@return true if it is auxilary table */
bool fts_check_aux_table(const char *name,
table_id_t *table_id,
index_id_t *index_id);
/** Update the last document id. This function could create a new
transaction to update the last document id.
@param table table to be updated
@param doc_id last document id
@param trx update trx or null
@retval DB_SUCCESS if OK */
dberr_t
fts_update_sync_doc_id(const dict_table_t *table,
doc_id_t doc_id,
trx_t *trx)
MY_ATTRIBUTE((nonnull(1)));
/** Sync the table during commit phase
@param[in] table table to be synced */
void fts_sync_during_ddl(dict_table_t* table);
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