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- Committer: Brian Aker
- Date: 2008-07-20 22:02:56 UTC
- Revision ID: brian@tangent.org-20080720220256-83c03tqqm1593qdq
Cleanup sql_lex to modern types.
- files modified:
- server/sql_lex.cc
added
removed
server/sql_lex.h
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/* SERVERS CACHE CHANGES */
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typedef struct st_lex_server_options
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{
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long port;
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uint server_name_length;
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int32_t port;
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uint32_t server_name_length;
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char *server_name, *host, *db, *username, *password, *scheme, *owner;
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} LEX_SERVER_OPTIONS;
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typedef struct st_lex_master_info
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{
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char *host, *user, *password, *log_file_name;
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uint port, connect_retry;
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uint32_t port, connect_retry;
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float heartbeat_period;
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uint64_t pos;
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ulong server_id;
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uint32_t server_id;
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/*
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Enum is used for making it possible to detect if the user
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changed variable or if it should be left at old value
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ssl, ssl_verify_server_cert, heartbeat_opt;
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char *ssl_key, *ssl_cert, *ssl_ca, *ssl_capath, *ssl_cipher;
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char *relay_log_name;
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ulong relay_log_pos;
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uint32_t relay_log_pos;
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} LEX_MASTER_INFO;
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LEX_STRING key_name;
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Index_hint (enum index_hint_type type_arg, index_clause_map clause_arg,
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char *str, uint length) :
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char *str, uint32_t length) :
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type(type_arg), clause(clause_arg)
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{
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key_name.str= str;
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UNCACHEABLE_EXPLAIN
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UNCACHEABLE_PREPARE
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*/
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uint8 uncacheable;
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uint8_t uncacheable;
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enum sub_select_type linkage;
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bool no_table_names_allowed; /* used for global order by */
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bool no_error; /* suppress error message (convert it to warnings) */
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return sql_alloc(size);
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}
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static void *operator new(size_t size, MEM_ROOT *mem_root)
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{ return (void*) alloc_root(mem_root, (uint) size); }
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{ return (void*) alloc_root(mem_root, (uint32_t) size); }
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static void operator delete(void *ptr __attribute__((__unused__)),
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size_t size __attribute__((__unused__)))
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{ TRASH(ptr, size); }
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virtual bool set_braces(bool value);
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virtual bool inc_in_sum_expr();
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virtual uint get_in_sum_expr();
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virtual uint32_t get_in_sum_expr();
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virtual TABLE_LIST* get_table_list();
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virtual List<Item>* get_item_list();
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virtual ulong get_table_join_options();
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virtual uint32_t get_table_join_options();
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virtual TABLE_LIST *add_table_to_list(THD *thd, Table_ident *table,
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LEX_STRING *alias,
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ulong table_options,
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uint32_t table_options,
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thr_lock_type flags= TL_UNLOCK,
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List<Index_hint> *hints= 0,
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LEX_STRING *option= 0);
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void exclude_tree();
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/* UNION methods */
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bool prepare(THD *thd, select_result *result, ulong additional_options);
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bool prepare(THD *thd, select_result *result, uint32_t additional_options);
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bool exec();
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bool cleanup();
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inline void unclean() { cleaned= 0; }
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bigger then can be number of entries that will be added to all item
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list during split_sum_func
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*/
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uint select_n_having_items;
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uint cond_count; /* number of arguments of and/or/xor in where/having/on */
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uint between_count; /* number of between predicates in where/having/on */
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uint max_equal_elems; /* maximal number of elements in multiple equalities */
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uint32_t select_n_having_items;
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uint32_t cond_count; /* number of arguments of and/or/xor in where/having/on */
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uint32_t between_count; /* number of between predicates in where/having/on */
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uint32_t max_equal_elems; /* maximal number of elements in multiple equalities */
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/*
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Number of fields used in select list or where clause of current select
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and all inner subselects.
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*/
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uint select_n_where_fields;
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uint32_t select_n_where_fields;
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enum_parsing_place parsing_place; /* where we are parsing expression */
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bool with_sum_func; /* sum function indicator */
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/*
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*/
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bool conds_processed_with_permanent_arena;
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ulong table_join_options;
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uint in_sum_expr;
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uint select_number; /* number of select (used for EXPLAIN) */
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uint32_t table_join_options;
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uint32_t in_sum_expr;
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uint32_t select_number; /* number of select (used for EXPLAIN) */
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int nest_level; /* nesting level of select */
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Item_sum *inner_sum_func_list; /* list of sum func in nested selects */
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uint with_wild; /* item list contain '*' */
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uint32_t with_wild; /* item list contain '*' */
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bool braces; /* SELECT ... UNION (SELECT ... ) <- this braces */
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/* true when having fix field called in processing of this SELECT */
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bool having_fix_field;
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/* List of references to fields referenced from inner selects */
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List<Item_outer_ref> inner_refs_list;
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/* Number of Item_sum-derived objects in this SELECT */
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uint n_sum_items;
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uint32_t n_sum_items;
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/* Number of Item_sum-derived objects in children and descendant SELECTs */
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uint n_child_sum_items;
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uint32_t n_child_sum_items;
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/* explicit LIMIT clause was used */
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bool explicit_limit;
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1 - aggregate functions are used in this select,
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defined as SUM_FUNC_USED.
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*/
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uint8 full_group_by_flag;
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uint8_t full_group_by_flag;
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void init_query();
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void init_select();
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st_select_lex_unit* master_unit();
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bool set_braces(bool value);
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bool inc_in_sum_expr();
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uint get_in_sum_expr();
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uint32_t get_in_sum_expr();
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bool add_item_to_list(THD *thd, Item *item);
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bool add_group_to_list(THD *thd, Item *item, bool asc);
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bool add_order_to_list(THD *thd, Item *item, bool asc);
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TABLE_LIST* add_table_to_list(THD *thd, Table_ident *table,
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LEX_STRING *alias,
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ulong table_options,
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uint32_t table_options,
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thr_lock_type flags= TL_UNLOCK,
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List<Index_hint> *hints= 0,
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LEX_STRING *option= 0);
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void add_joined_table(TABLE_LIST *table);
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TABLE_LIST *convert_right_join();
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List<Item>* get_item_list();
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ulong get_table_join_options();
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uint32_t get_table_join_options();
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void set_lock_for_tables(thr_lock_type lock_type);
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inline void init_order()
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{
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init_query();
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init_select();
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}
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bool setup_ref_array(THD *thd, uint order_group_num);
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bool setup_ref_array(THD *thd, uint32_t order_group_num);
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void print(THD *thd, String *str, enum_query_type query_type);
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static void print_order(String *str,
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ORDER *order,
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Add a index hint to the tagged list of hints. The type and clause of the
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hint will be the current ones (set by set_index_hint())
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*/
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bool add_index_hint (THD *thd, char *str, uint length);
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bool add_index_hint (THD *thd, char *str, uint32_t length);
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/* make a list to hold index hints */
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void alloc_index_hints (THD *thd);
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List<Alter_column> alter_list;
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List<Key> key_list;
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List<Create_field> create_list;
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uint flags;
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uint32_t flags;
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enum enum_enable_or_disable keys_onoff;
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enum tablespace_op_type tablespace_op;
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uint no_parts;
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uint32_t no_parts;
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enum ha_build_method build_method;
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Create_field *datetime_field;
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bool error_if_not_empty;
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*/
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SQL_LIST sroutines_list;
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uchar **sroutines_list_own_last;
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uint sroutines_list_own_elements;
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uint32_t sroutines_list_own_elements;
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/*
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These constructor and destructor serve for creation/destruction
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}
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/** Get the length of the current token, in the raw buffer. */
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uint yyLength()
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uint32_t yyLength()
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{
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/*
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The assumption is that the lexical analyser is always 1 character ahead,
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which the -1 account for.
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*/
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assert(m_ptr > m_tok_start);
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return (uint) ((m_ptr - m_tok_start) - 1);
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return (uint32_t) ((m_ptr - m_tok_start) - 1);
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}
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/** Get the utf8-body string. */
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}
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/** Get the utf8-body length. */
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uint get_body_utf8_length()
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uint32_t get_body_utf8_length()
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{
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return m_body_utf8_ptr - m_body_utf8;
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}
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THD *m_thd;
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/** Current line number. */
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uint yylineno;
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uint32_t yylineno;
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/** Length of the last token parsed. */
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uint yytoklen;
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uint32_t yytoklen;
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/** Interface with bison, value of the last token parsed. */
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LEX_YYSTYPE yylval;
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const char *m_buf;
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/** Length of the raw buffer. */
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uint m_buf_length;
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uint32_t m_buf_length;
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/** Echo the parsed stream to the pre-processed buffer. */
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bool m_echo;
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KEY_CREATE_INFO key_create_info;
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LEX_MASTER_INFO mi; // used by CHANGE MASTER
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LEX_SERVER_OPTIONS server_options;
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ulong type;
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uint32_t type;
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/*
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This variable is used in post-parse stage to declare that sum-functions,
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or functions which have sense only if GROUP BY is present, are allowed.
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};
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enum enum_var_type option_type;
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uint profile_query_id;
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uint profile_options;
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uint32_t profile_query_id;
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uint32_t profile_options;
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enum column_format_type column_format;
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uint which_columns;
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uint32_t which_columns;
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enum Foreign_key::fk_match_opt fk_match_option;
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enum Foreign_key::fk_option fk_update_opt;
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enum Foreign_key::fk_option fk_delete_opt;
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uint slave_thd_opt, start_transaction_opt;
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uint32_t slave_thd_opt, start_transaction_opt;
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int nest_level;
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/*
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In LEX representing update which were transformed to multi-update
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stores total number of tables. For LEX representing multi-delete
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holds number of tables from which we will delete records.
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*/
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uint table_count;
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uint8 describe;
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uint32_t table_count;
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uint8_t describe;
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/*
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A flag that indicates what kinds of derived tables are present in the
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query (0 if no derived tables, otherwise DERIVED_SUBQUERY).
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*/
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uint8 derived_tables;
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uint8_t derived_tables;
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bool drop_if_exists, drop_temporary, local_file, one_shot_set;
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bool autocommit;
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bool verbose, no_write_to_binlog;
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}
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static void *operator new(size_t size, MEM_ROOT *mem_root) throw()
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{
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return (void*) alloc_root(mem_root, (uint) size);
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return (void*) alloc_root(mem_root, (uint32_t) size);
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}
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static void operator delete(void *ptr __attribute__((__unused__)),
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size_t size __attribute__((__unused__)))
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