/* Copyright (C) 2000 MySQL AB & MySQL Finland AB & TCX DataKonsult 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; either version 2 of the License, or (at your option) any later version. 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifdef __GNUC__ #pragma implementation // gcc: Class implementation #endif #include "mysql_priv.h" #include <m_ctype.h> #include "my_dir.h" #include "sp_rcontext.h" #include "sql_acl.h" static void mark_as_dependent(THD *thd, SELECT_LEX *last, SELECT_LEX *current, Item_ident *item); const String my_null_string("NULL", 4, default_charset_info); /***************************************************************************** ** Item functions *****************************************************************************/ /* Init all special items */ void item_init(void) { item_user_lock_init(); } Item::Item(): name_length(0), fixed(0) { marker= 0; maybe_null=null_value=with_sum_func=unsigned_flag=0; collation.set(default_charset(), DERIVATION_COERCIBLE); name= 0; decimals= 0; max_length= 0; /* Put item in free list so that we can free all items at end */ THD *thd= current_thd; next= thd->free_list; thd->free_list= this; /* Item constructor can be called during execution other then SQL_COM command => we should check thd->lex->current_select on zero (thd->lex can be uninitialised) */ if (thd->lex->current_select) { SELECT_LEX_NODE::enum_parsing_place place= thd->lex->current_select->parsing_place; if (place == SELECT_LEX_NODE::SELECT_LIST || place == SELECT_LEX_NODE::IN_HAVING) thd->lex->current_select->select_n_having_items++; } } /* Constructor used by Item_field, Item_ref & agregate (sum) functions. Used for duplicating lists in processing queries with temporary tables */ Item::Item(THD *thd, Item *item): str_value(item->str_value), name(item->name), max_length(item->max_length), marker(item->marker), decimals(item->decimals), maybe_null(item->maybe_null), null_value(item->null_value), unsigned_flag(item->unsigned_flag), with_sum_func(item->with_sum_func), fixed(item->fixed), collation(item->collation) { next= thd->free_list; // Put in free list thd->free_list= this; } void Item::print_item_w_name(String *str) { print(str); if (name) { THD *thd= current_thd; str->append(" AS ", 4); append_identifier(thd, str, name, strlen(name)); } } Item_ident::Item_ident(const char *db_name_par,const char *table_name_par, const char *field_name_par) :orig_db_name(db_name_par), orig_table_name(table_name_par), orig_field_name(field_name_par), changed_during_fix_field(0), db_name(db_name_par), table_name(table_name_par), field_name(field_name_par), cached_field_index(NO_CACHED_FIELD_INDEX), cached_table(0), depended_from(0) { name = (char*) field_name_par; } // Constructor used by Item_field & Item_ref (see Item comment) Item_ident::Item_ident(THD *thd, Item_ident *item) :Item(thd, item), orig_db_name(item->orig_db_name), orig_table_name(item->orig_table_name), orig_field_name(item->orig_field_name), changed_during_fix_field(0), db_name(item->db_name), table_name(item->table_name), field_name(item->field_name), cached_field_index(item->cached_field_index), cached_table(item->cached_table), depended_from(item->depended_from) {} void Item_ident::cleanup() { DBUG_ENTER("Item_ident::cleanup"); DBUG_PRINT("enter", ("b:%s(%s), t:%s(%s), f:%s(%s)", db_name, orig_db_name, table_name, orig_table_name, field_name, orig_field_name)); Item::cleanup(); if (changed_during_fix_field) { *changed_during_fix_field= this; changed_during_fix_field= 0; } db_name= orig_db_name; table_name= orig_table_name; field_name= orig_field_name; DBUG_VOID_RETURN; } bool Item_ident::remove_dependence_processor(byte * arg) { DBUG_ENTER("Item_ident::remove_dependence_processor"); if (depended_from == (st_select_lex *) arg) depended_from= 0; DBUG_RETURN(0); } bool Item::check_cols(uint c) { if (c != 1) { my_error(ER_OPERAND_COLUMNS, MYF(0), c); return 1; } return 0; } void Item::set_name(const char *str, uint length, CHARSET_INFO *cs) { if (!length) { /* Empty string, used by AS or internal function like last_insert_id() */ name= (char*) str; name_length= 0; return; } while (length && !my_isgraph(cs,*str)) { // Fix problem with yacc length--; str++; } if (!my_charset_same(cs, system_charset_info)) { uint32 res_length; name= sql_strmake_with_convert(str, name_length= length, cs, MAX_ALIAS_NAME, system_charset_info, &res_length); } else name= sql_strmake(str, (name_length= min(length,MAX_ALIAS_NAME))); } /* This function is called when: - Comparing items in the WHERE clause (when doing where optimization) - When trying to find an ORDER BY/GROUP BY item in the SELECT part */ bool Item::eq(const Item *item, bool binary_cmp) const { return type() == item->type() && name && item->name && !my_strcasecmp(system_charset_info,name,item->name); } bool Item_string::eq(const Item *item, bool binary_cmp) const { if (type() == item->type()) { if (binary_cmp) return !stringcmp(&str_value, &item->str_value); return !sortcmp(&str_value, &item->str_value, collation.collation); } return 0; } /* Get the value of the function as a TIME structure. As a extra convenience the time structure is reset on error! */ bool Item::get_date(TIME *ltime,uint fuzzydate) { char buff[40]; String tmp(buff,sizeof(buff), &my_charset_bin),*res; if (!(res=val_str(&tmp)) || str_to_datetime_with_warn(res->ptr(), res->length(), ltime, fuzzydate) <= MYSQL_TIMESTAMP_ERROR) { bzero((char*) ltime,sizeof(*ltime)); return 1; } return 0; } /* Get time of first argument. As a extra convenience the time structure is reset on error! */ bool Item::get_time(TIME *ltime) { char buff[40]; String tmp(buff,sizeof(buff),&my_charset_bin),*res; if (!(res=val_str(&tmp)) || str_to_time_with_warn(res->ptr(), res->length(), ltime)) { bzero((char*) ltime,sizeof(*ltime)); return 1; } return 0; } CHARSET_INFO *Item::default_charset() { return current_thd->variables.collation_connection; } Item * Item_splocal::this_item() { THD *thd= current_thd; return thd->spcont->get_item(m_offset); } Item * Item_splocal::this_const_item() const { THD *thd= current_thd; return thd->spcont->get_item(m_offset); } Item::Type Item_splocal::type() const { THD *thd= current_thd; if (thd->spcont) return thd->spcont->get_item(m_offset)->type(); return NULL_ITEM; // Anything but SUBSELECT_ITEM } bool DTCollation::aggregate(DTCollation &dt) { if (!my_charset_same(collation, dt.collation)) { /* We do allow to use binary strings (like BLOBS) together with character strings. Binaries have more precedance than a character string of the same derivation. */ if (collation == &my_charset_bin) { if (derivation <= dt.derivation) ; // Do nothing else set(dt); } else if (dt.collation == &my_charset_bin) { if (dt.derivation <= derivation) set(dt); else ; // Do nothing } else { set(0, DERIVATION_NONE); return 1; } } else if (derivation < dt.derivation) { // Do nothing } else if (dt.derivation < derivation) { set(dt); } else { if (collation == dt.collation) { // Do nothing } else { if (derivation == DERIVATION_EXPLICIT) { set(0, DERIVATION_NONE); return 1; } CHARSET_INFO *bin= get_charset_by_csname(collation->csname, MY_CS_BINSORT,MYF(0)); set(bin, DERIVATION_NONE); } } return 0; } Item_field::Item_field(Field *f) :Item_ident(NullS, f->table_name, f->field_name), have_privileges(0), any_privileges(0) { set_field(f); collation.set(DERIVATION_IMPLICIT); fixed= 1; } Item_field::Item_field(THD *thd, Field *f) :Item_ident(NullS, thd->strdup(f->table_name), thd->strdup(f->field_name)), have_privileges(0), any_privileges(0) { set_field(f); collation.set(DERIVATION_IMPLICIT); fixed= 1; } // Constructor need to process subselect with temporary tables (see Item) Item_field::Item_field(THD *thd, Item_field *item) :Item_ident(thd, item), field(item->field), result_field(item->result_field), have_privileges(item->have_privileges), any_privileges(item->any_privileges) { collation.set(DERIVATION_IMPLICIT); } void Item_field::set_field(Field *field_par) { field=result_field=field_par; // for easy coding with fields maybe_null=field->maybe_null(); max_length=field_par->field_length; decimals= field->decimals(); table_name=field_par->table_name; field_name=field_par->field_name; db_name=field_par->table->table_cache_key; unsigned_flag=test(field_par->flags & UNSIGNED_FLAG); collation.set(field_par->charset(), DERIVATION_IMPLICIT); } const char *Item_ident::full_name() const { char *tmp; if (!table_name || !field_name) return field_name ? field_name : name ? name : "tmp_field"; if (db_name && db_name[0]) { tmp=(char*) sql_alloc((uint) strlen(db_name)+(uint) strlen(table_name)+ (uint) strlen(field_name)+3); strxmov(tmp,db_name,".",table_name,".",field_name,NullS); } else { if (table_name[0]) { tmp= (char*) sql_alloc((uint) strlen(table_name) + (uint) strlen(field_name) + 2); strxmov(tmp, table_name, ".", field_name, NullS); } else tmp= (char*) field_name; } return tmp; } void Item_ident::print(String *str) { THD *thd= current_thd; if (!table_name || !field_name) { const char *nm= field_name ? field_name : name ? name : "tmp_field"; append_identifier(thd, str, nm, strlen(nm)); return; } if (db_name && db_name[0]) { append_identifier(thd, str, db_name, strlen(db_name)); str->append('.'); append_identifier(thd, str, table_name, strlen(table_name)); str->append('.'); append_identifier(thd, str, field_name, strlen(field_name)); } else { if (table_name[0]) { append_identifier(thd, str, table_name, strlen(table_name)); str->append('.'); append_identifier(thd, str, field_name, strlen(field_name)); } else append_identifier(thd, str, field_name, strlen(field_name)); } } /* ARGSUSED */ String *Item_field::val_str(String *str) { DBUG_ASSERT(fixed == 1); if ((null_value=field->is_null())) return 0; str->set_charset(str_value.charset()); return field->val_str(str,&str_value); } double Item_field::val() { DBUG_ASSERT(fixed == 1); if ((null_value=field->is_null())) return 0.0; return field->val_real(); } longlong Item_field::val_int() { DBUG_ASSERT(fixed == 1); if ((null_value=field->is_null())) return 0; return field->val_int(); } String *Item_field::str_result(String *str) { if ((null_value=result_field->is_null())) return 0; str->set_charset(str_value.charset()); return result_field->val_str(str,&str_value); } bool Item_field::get_date(TIME *ltime,uint fuzzydate) { if ((null_value=field->is_null()) || field->get_date(ltime,fuzzydate)) { bzero((char*) ltime,sizeof(*ltime)); return 1; } return 0; } bool Item_field::get_date_result(TIME *ltime,uint fuzzydate) { if ((null_value=result_field->is_null()) || result_field->get_date(ltime,fuzzydate)) { bzero((char*) ltime,sizeof(*ltime)); return 1; } return 0; } bool Item_field::get_time(TIME *ltime) { if ((null_value=field->is_null()) || field->get_time(ltime)) { bzero((char*) ltime,sizeof(*ltime)); return 1; } return 0; } double Item_field::val_result() { if ((null_value=result_field->is_null())) return 0.0; return result_field->val_real(); } longlong Item_field::val_int_result() { if ((null_value=result_field->is_null())) return 0; return result_field->val_int(); } bool Item_field::eq(const Item *item, bool binary_cmp) const { if (item->type() != FIELD_ITEM) return 0; Item_field *item_field= (Item_field*) item; if (item_field->field) return item_field->field == field; /* We may come here when we are trying to find a function in a GROUP BY clause from the select list. In this case the '100 % correct' way to do this would be to first run fix_fields() on the GROUP BY item and then retry this function, but I think it's better to relax the checking a bit as we will in most cases do the correct thing by just checking the field name. (In cases where we would choose wrong we would have to generate a ER_NON_UNIQ_ERROR). */ return (!my_strcasecmp(system_charset_info, item_field->name, field_name) && (!item_field->table_name || (!my_strcasecmp(table_alias_charset, item_field->table_name, table_name) && (!item_field->db_name || (item_field->db_name && !strcmp(item_field->db_name, db_name)))))); } table_map Item_field::used_tables() const { if (field->table->const_table) return 0; // const item return (depended_from ? OUTER_REF_TABLE_BIT : field->table->map); } Item *Item_field::get_tmp_table_item(THD *thd) { Item_field *new_item= new Item_field(thd, this); if (new_item) new_item->field= new_item->result_field; return new_item; } /* Create an item from a string we KNOW points to a valid longlong/ulonglong end \0 terminated number string */ Item_int::Item_int(const char *str_arg, uint length) { char *end_ptr= (char*) str_arg + length; int error; value= my_strtoll10(str_arg, &end_ptr, &error); max_length= (uint) (end_ptr - str_arg); name= (char*) str_arg; fixed= 1; } String *Item_int::val_str(String *str) { // following assert is redundant, because fixed=1 assigned in constructor DBUG_ASSERT(fixed == 1); str->set(value, &my_charset_bin); return str; } void Item_int::print(String *str) { // my_charset_bin is good enough for numbers str_value.set(value, &my_charset_bin); str->append(str_value); } Item_uint::Item_uint(const char *str_arg, uint length): Item_int(str_arg, length) { unsigned_flag= 1; } String *Item_uint::val_str(String *str) { // following assert is redundant, because fixed=1 assigned in constructor DBUG_ASSERT(fixed == 1); str->set((ulonglong) value, &my_charset_bin); return str; } void Item_uint::print(String *str) { // latin1 is good enough for numbers str_value.set((ulonglong) value, default_charset()); str->append(str_value); } String *Item_real::val_str(String *str) { // following assert is redundant, because fixed=1 assigned in constructor DBUG_ASSERT(fixed == 1); str->set(value,decimals,&my_charset_bin); return str; } void Item_string::print(String *str) { str->append('_'); str->append(collation.collation->csname); str->append('\''); str_value.print(str); str->append('\''); } bool Item_null::eq(const Item *item, bool binary_cmp) const { return item->type() == type(); } double Item_null::val() { // following assert is redundant, because fixed=1 assigned in constructor DBUG_ASSERT(fixed == 1); null_value=1; return 0.0; } longlong Item_null::val_int() { // following assert is redundant, because fixed=1 assigned in constructor DBUG_ASSERT(fixed == 1); null_value=1; return 0; } /* ARGSUSED */ String *Item_null::val_str(String *str) { // following assert is redundant, because fixed=1 assigned in constructor DBUG_ASSERT(fixed == 1); null_value=1; return 0; } /*********************** Item_param related ******************************/ /* Default function of Item_param::set_param_func, so in case of malformed packet the server won't SIGSEGV */ static void default_set_param_func(Item_param *param, uchar **pos __attribute__((unused)), ulong len __attribute__((unused))) { param->set_null(); } Item_param::Item_param(unsigned pos_in_query_arg) : state(NO_VALUE), item_result_type(STRING_RESULT), /* Don't pretend to be a literal unless value for this item is set. */ item_type(PARAM_ITEM), param_type(MYSQL_TYPE_STRING), pos_in_query(pos_in_query_arg), set_param_func(default_set_param_func) { name= (char*) "?"; /* Since we can't say whenever this item can be NULL or cannot be NULL before mysql_stmt_execute(), so we assuming that it can be NULL until value is set. */ maybe_null= 1; } void Item_param::set_null() { DBUG_ENTER("Item_param::set_null"); /* These are cleared after each execution by reset() method */ max_length= 0; null_value= 1; /* Because of NULL and string values we need to set max_length for each new placeholder value: user can submit NULL for any placeholder type, and string length can be different in each execution. */ max_length= 0; decimals= 0; state= NULL_VALUE; DBUG_VOID_RETURN; } void Item_param::set_int(longlong i, uint32 max_length_arg) { DBUG_ENTER("Item_param::set_int"); value.integer= (longlong) i; state= INT_VALUE; max_length= max_length_arg; decimals= 0; maybe_null= 0; DBUG_VOID_RETURN; } void Item_param::set_double(double d) { DBUG_ENTER("Item_param::set_double"); value.real= d; state= REAL_VALUE; max_length= DBL_DIG + 8; decimals= NOT_FIXED_DEC; maybe_null= 0; DBUG_VOID_RETURN; } void Item_param::set_time(TIME *tm, timestamp_type type, uint32 max_length_arg) { DBUG_ENTER("Item_param::set_time"); value.time= *tm; value.time.time_type= type; state= TIME_VALUE; maybe_null= 0; max_length= max_length_arg; decimals= 0; DBUG_VOID_RETURN; } bool Item_param::set_str(const char *str, ulong length) { DBUG_ENTER("Item_param::set_str"); /* Assign string with no conversion: data is converted only after it's been written to the binary log. */ if (str_value.copy(str, length, &my_charset_bin, &my_charset_bin)) DBUG_RETURN(TRUE); state= STRING_VALUE; maybe_null= 0; /* max_length and decimals are set after charset conversion */ /* sic: str may be not null-terminated, don't add DBUG_PRINT here */ DBUG_RETURN(FALSE); } bool Item_param::set_longdata(const char *str, ulong length) { DBUG_ENTER("Item_param::set_longdata"); /* If client character set is multibyte, end of long data packet may hit at the middle of a multibyte character. Additionally, if binary log is open we must write long data value to the binary log in character set of client. This is why we can't convert long data to connection character set as it comes (here), and first have to concatenate all pieces together, write query to the binary log and only then perform conversion. */ if (str_value.append(str, length, &my_charset_bin)) DBUG_RETURN(TRUE); state= LONG_DATA_VALUE; maybe_null= 0; DBUG_RETURN(FALSE); } /* Set parameter value from user variable value. SYNOPSIS set_from_user_var thd Current thread entry User variable structure (NULL means use NULL value) RETURN 0 OK 1 Out of memort */ bool Item_param::set_from_user_var(THD *thd, const user_var_entry *entry) { DBUG_ENTER("Item_param::set_from_user_var"); if (entry && entry->value) { item_result_type= entry->type; switch (entry->type) { case REAL_RESULT: set_double(*(double*)entry->value); item_type= Item::REAL_ITEM; item_result_type= REAL_RESULT; break; case INT_RESULT: set_int(*(longlong*)entry->value, 21); item_type= Item::INT_ITEM; item_result_type= INT_RESULT; break; case STRING_RESULT: { CHARSET_INFO *fromcs= entry->collation.collation; CHARSET_INFO *tocs= thd->variables.collation_connection; uint32 dummy_offset; value.cs_info.character_set_client= fromcs; /* Setup source and destination character sets so that they are different only if conversion is necessary: this will make later checks easier. */ value.cs_info.final_character_set_of_str_value= String::needs_conversion(0, fromcs, tocs, &dummy_offset) ? tocs : fromcs; /* Exact value of max_length is not known unless data is converted to charset of connection, so we have to set it later. */ item_type= Item::STRING_ITEM; item_result_type= STRING_RESULT; if (set_str((const char *)entry->value, entry->length)) DBUG_RETURN(1); break; } default: DBUG_ASSERT(0); set_null(); } } else set_null(); DBUG_RETURN(0); } /* Resets parameter after execution. SYNOPSIS Item_param::reset() NOTES We clear null_value here instead of setting it in set_* methods, because we want more easily handle case for long data. */ void Item_param::reset() { /* Shrink string buffer if it's bigger than max possible CHAR column */ if (str_value.alloced_length() > MAX_CHAR_WIDTH) str_value.free(); else str_value.length(0); str_value_ptr.length(0); /* We must prevent all charset conversions untill data has been written to the binary log. */ str_value.set_charset(&my_charset_bin); state= NO_VALUE; maybe_null= 1; null_value= 0; /* Don't reset item_type to PARAM_ITEM: it's only needed to guard us from item optimizations at prepare stage, when item doesn't yet contain a literal of some kind. In all other cases when this object is accessed its value is set (this assumption is guarded by 'state' and DBUG_ASSERTS(state != NO_VALUE) in all Item_param::get_* methods). */ } int Item_param::save_in_field(Field *field, bool no_conversions) { field->set_notnull(); switch (state) { case INT_VALUE: return field->store(value.integer); case REAL_VALUE: return field->store(value.real); case TIME_VALUE: field->store_time(&value.time, value.time.time_type); return 0; case STRING_VALUE: case LONG_DATA_VALUE: return field->store(str_value.ptr(), str_value.length(), str_value.charset()); case NULL_VALUE: return set_field_to_null(field); case NO_VALUE: default: DBUG_ASSERT(0); } return 1; } bool Item_param::get_time(TIME *res) { if (state == TIME_VALUE) { *res= value.time; return 0; } /* If parameter value isn't supplied assertion will fire in val_str() which is called from Item::get_time(). */ return Item::get_time(res); } bool Item_param::get_date(TIME *res, uint fuzzydate) { if (state == TIME_VALUE) { *res= value.time; return 0; } return Item::get_date(res, fuzzydate); } double Item_param::val() { switch (state) { case REAL_VALUE: return value.real; case INT_VALUE: return (double) value.integer; case STRING_VALUE: case LONG_DATA_VALUE: { int dummy_err; return my_strntod(str_value.charset(), (char*) str_value.ptr(), str_value.length(), (char**) 0, &dummy_err); } case TIME_VALUE: /* This works for example when user says SELECT ?+0.0 and supplies time value for the placeholder. */ return (double) TIME_to_ulonglong(&value.time); case NULL_VALUE: return 0.0; default: DBUG_ASSERT(0); } return 0.0; } longlong Item_param::val_int() { switch (state) { case REAL_VALUE: return (longlong) (value.real + (value.real > 0 ? 0.5 : -0.5)); case INT_VALUE: return value.integer; case STRING_VALUE: case LONG_DATA_VALUE: { int dummy_err; return my_strntoll(str_value.charset(), str_value.ptr(), str_value.length(), 10, (char**) 0, &dummy_err); } case TIME_VALUE: return (longlong) TIME_to_ulonglong(&value.time); case NULL_VALUE: return 0; default: DBUG_ASSERT(0); } return 0; } String *Item_param::val_str(String* str) { switch (state) { case STRING_VALUE: case LONG_DATA_VALUE: return &str_value_ptr; case REAL_VALUE: str->set(value.real, NOT_FIXED_DEC, &my_charset_bin); return str; case INT_VALUE: str->set(value.integer, &my_charset_bin); return str; case TIME_VALUE: { if (str->reserve(MAX_DATE_REP_LENGTH)) break; TIME_to_string(&value.time, str); return str; } case NULL_VALUE: return NULL; default: DBUG_ASSERT(0); } return str; } /* Return Param item values in string format, for generating the dynamic query used in update/binary logs TODO: change interface and implementation to fill log data in place and avoid one more memcpy/alloc between str and log string. */ const String *Item_param::query_val_str(String* str) const { switch (state) { case INT_VALUE: str->set(value.integer, &my_charset_bin); break; case REAL_VALUE: str->set(value.real, NOT_FIXED_DEC, &my_charset_bin); break; case TIME_VALUE: { char *buf, *ptr; String tmp; str->length(0); /* TODO: in case of error we need to notify replication that binary log contains wrong statement */ if (str->reserve(MAX_DATE_REP_LENGTH+3)) break; /* Create date string inplace */ buf= str->c_ptr_quick(); ptr= buf; *ptr++= '\''; tmp.set(ptr, MAX_DATE_REP_LENGTH, &my_charset_bin); tmp.length(0); TIME_to_string(&value.time, &tmp); ptr+= tmp.length(); *ptr++= '\''; str->length((uint32) (ptr - buf)); break; } case STRING_VALUE: case LONG_DATA_VALUE: { char *buf, *ptr; str->length(0); if (str->reserve(str_value.length()*2+3)) break; buf= str->c_ptr_quick(); ptr= buf; *ptr++= '\''; ptr+= escape_string_for_mysql(str_value.charset(), ptr, str_value.ptr(), str_value.length()); *ptr++= '\''; str->length(ptr - buf); break; } case NULL_VALUE: return &my_null_string; default: DBUG_ASSERT(0); } return str; } /* Convert string from client character set to the character set of connection. */ bool Item_param::convert_str_value(THD *thd) { bool rc= FALSE; if (state == STRING_VALUE || state == LONG_DATA_VALUE) { /* Check is so simple because all charsets were set up properly in setup_one_conversion_function, where typecode of placeholder was also taken into account: the variables are different here only if conversion is really necessary. */ if (value.cs_info.final_character_set_of_str_value != value.cs_info.character_set_client) { rc= thd->convert_string(&str_value, value.cs_info.character_set_client, value.cs_info.final_character_set_of_str_value); } max_length= str_value.length(); decimals= 0; /* str_value_ptr is returned from val_str(). It must be not alloced to prevent it's modification by val_str() invoker. */ str_value_ptr.set(str_value.ptr(), str_value.length(), str_value.charset()); } return rc; } /* End of Item_param related */ void Item_copy_string::copy() { String *res=item->val_str(&str_value); if (res && res != &str_value) str_value.copy(*res); null_value=item->null_value; } /* ARGSUSED */ String *Item_copy_string::val_str(String *str) { // Item_copy_string is used without fix_fields call if (null_value) return (String*) 0; return &str_value; } int Item_copy_string::save_in_field(Field *field, bool no_conversions) { if (null_value) return set_field_to_null(field); field->set_notnull(); return field->store(str_value.ptr(),str_value.length(), collation.collation); } /* Functions to convert item to field (for send_fields) */ /* ARGSUSED */ bool Item::fix_fields(THD *thd, struct st_table_list *list, Item ** ref) { // We do not check fields which are fixed during construction DBUG_ASSERT(fixed == 0 || basic_const_item()); fixed= 1; return 0; } double Item_ref_null_helper::val() { DBUG_ASSERT(fixed == 1); double tmp= (*ref)->val_result(); owner->was_null|= null_value= (*ref)->null_value; return tmp; } longlong Item_ref_null_helper::val_int() { DBUG_ASSERT(fixed == 1); longlong tmp= (*ref)->val_int_result(); owner->was_null|= null_value= (*ref)->null_value; return tmp; } String* Item_ref_null_helper::val_str(String* s) { DBUG_ASSERT(fixed == 1); String* tmp= (*ref)->str_result(s); owner->was_null|= null_value= (*ref)->null_value; return tmp; } bool Item_ref_null_helper::get_date(TIME *ltime, uint fuzzydate) { return (owner->was_null|= null_value= (*ref)->get_date(ltime, fuzzydate)); } /* Mark item and SELECT_LEXs as dependent if it is not outer resolving SYNOPSIS mark_as_dependent() thd - thread handler last - select from which current item depend current - current select item - item which should be marked */ static void mark_as_dependent(THD *thd, SELECT_LEX *last, SELECT_LEX *current, Item_ident *item) { // store pointer on SELECT_LEX from wich item is dependent item->depended_from= last; current->mark_as_dependent(last); if (thd->lex->describe & DESCRIBE_EXTENDED) { char warn_buff[MYSQL_ERRMSG_SIZE]; sprintf(warn_buff, ER(ER_WARN_FIELD_RESOLVED), (item->db_name?item->db_name:""), (item->db_name?".":""), (item->table_name?item->table_name:""), (item->table_name?".":""), item->field_name, current->select_number, last->select_number); push_warning(thd, MYSQL_ERROR::WARN_LEVEL_NOTE, ER_WARN_FIELD_RESOLVED, warn_buff); } } bool Item_field::fix_fields(THD *thd, TABLE_LIST *tables, Item **ref) { DBUG_ASSERT(fixed == 0); if (!field) // If field is not checked { bool upward_lookup= 0; Field *tmp= (Field *)not_found_field; if ((tmp= find_field_in_tables(thd, this, tables, ref, 0, !any_privileges)) == not_found_field) { /* We can't find table field in table list of current select, consequently we have to find it in outer subselect(s). We can't join lists of outer & current select, because of scope of view rules. For example if both tables (outer & current) have field 'field' it is not mistake to refer to this field without mention of table name, but if we join tables in one list it will cause error ER_NON_UNIQ_ERROR in find_field_in_tables. */ SELECT_LEX *last= 0; #ifdef EMBEDDED_LIBRARY thd->net.last_errno= 0; #endif TABLE_LIST *table_list; Item **refer= (Item **)not_found_item; uint counter; // Prevent using outer fields in subselects, that is not supported now SELECT_LEX *cursel= (SELECT_LEX *) thd->lex->current_select; if (cursel->master_unit()->first_select()->linkage != DERIVED_TABLE_TYPE) { SELECT_LEX_UNIT *prev_unit= cursel->master_unit(); for (SELECT_LEX *sl= prev_unit->outer_select(); sl; sl= (prev_unit= sl->master_unit())->outer_select()) { upward_lookup= 1; table_list= (last= sl)->get_table_list(); if (sl->resolve_mode == SELECT_LEX::INSERT_MODE && table_list) { // it is primary INSERT st_select_lex => skip first table resolving table_list= table_list->next_local; } Item_subselect *prev_subselect_item= prev_unit->item; if ((tmp= find_field_in_tables(thd, this, table_list, ref, 0, 1)) != not_found_field) { if (tmp) { if (tmp != view_ref_found) { prev_subselect_item->used_tables_cache|= tmp->table->map; prev_subselect_item->const_item_cache= 0; } else { prev_subselect_item->used_tables_cache|= (*ref)->used_tables(); prev_subselect_item->const_item_cache&= (*ref)->const_item(); } } break; } if (sl->resolve_mode == SELECT_LEX::SELECT_MODE && (refer= find_item_in_list(this, sl->item_list, &counter, REPORT_EXCEPT_NOT_FOUND)) != (Item **) not_found_item) { if (*refer && (*refer)->fixed) // Avoid crash in case of error { prev_subselect_item->used_tables_cache|= (*refer)->used_tables(); prev_subselect_item->const_item_cache&= (*refer)->const_item(); } break; } // Reference is not found => depend from outer (or just error) prev_subselect_item->used_tables_cache|= OUTER_REF_TABLE_BIT; prev_subselect_item->const_item_cache= 0; if (sl->master_unit()->first_select()->linkage == DERIVED_TABLE_TYPE) break; // do not look over derived table } } if (!tmp) return -1; else if (!refer) return 1; else if (tmp == not_found_field && refer == (Item **)not_found_item) { if (upward_lookup) { // We can't say exactly what absend table or field my_printf_error(ER_BAD_FIELD_ERROR, ER(ER_BAD_FIELD_ERROR), MYF(0), full_name(), thd->where); } else { // Call to report error find_field_in_tables(thd, this, tables, ref, 1, 1); } return -1; } else if (refer != (Item **)not_found_item) { if (!(*refer)->fixed) { my_error(ER_ILLEGAL_REFERENCE, MYF(0), name, "forward reference in item list"); return -1; } Item_ref *rf; *ref= rf= new Item_ref(last->ref_pointer_array + counter, ref, (char *)table_name, (char *)field_name); register_item_tree_changing(ref); if (!rf) return 1; /* rf is Item_ref => never substitute other items (in this case) during fix_fields() => we can use rf after fix_fields() */ if (rf->fix_fields(thd, tables, ref) || rf->check_cols(1)) return 1; mark_as_dependent(thd, last, cursel, rf); return 0; } else { mark_as_dependent(thd, last, cursel, this); if (last->having_fix_field) { Item_ref *rf; *ref= rf= new Item_ref(ref, *ref, (cached_table->db[0]?cached_table->db:0), (char *)cached_table->alias, (char *)field_name); if (!rf) return 1; /* rf is Item_ref => never substitute other items (in this case) during fix_fields() => we can use rf after fix_fields() */ return rf->fix_fields(thd, tables, ref) || rf->check_cols(1); } } } else if (!tmp) return -1; /* if it is not expression from merged VIEW we will set this field. We can leave expression substituted from view for next PS/SP rexecution (i.e. do not register this substitution for reverting on cleupup() (register_item_tree_changing())), because this subtree will be fix_field'ed during setup_tables()->setup_ancestor() (i.e. before all other expressions of query, and references on tables which do not present in query will not make problems. Also we suppose that view can't be changed during PS/SP life. */ if (tmp != view_ref_found) set_field(tmp); } else if (thd->set_query_id && field->query_id != thd->query_id) { /* We only come here in unions */ TABLE *table=field->table; field->query_id=thd->query_id; table->used_fields++; table->used_keys.intersect(field->part_of_key); } #ifndef NO_EMBEDDED_ACCESS_CHECKS if (any_privileges) { char *db, *tab; if (cached_table->view) { db= cached_table->view_db.str; tab= cached_table->view_name.str; } else { db= cached_table->db; tab= cached_table->real_name; } if (!(have_privileges= (get_column_grant(thd, &field->table->grant, db, tab, field_name) & VIEW_ANY_ACL))) { my_printf_error(ER_COLUMNACCESS_DENIED_ERROR, ER(ER_COLUMNACCESS_DENIED_ERROR), MYF(0), "ANY", thd->priv_user, thd->host_or_ip, field_name, tab); return 1; } } #endif fixed= 1; return 0; } void Item_field::cleanup() { DBUG_ENTER("Item_field::cleanup"); Item_ident::cleanup(); /* Even if this object was created by direct link to field in setup_wild() it will be linked correctly next tyme by name of field and table alias. I.e. we can drop 'field'. */ field= result_field= 0; DBUG_VOID_RETURN; } void Item::init_make_field(Send_field *tmp_field, enum enum_field_types field_type) { char *empty_name= (char*) ""; tmp_field->db_name= empty_name; tmp_field->org_table_name= empty_name; tmp_field->org_col_name= empty_name; tmp_field->table_name= empty_name; tmp_field->col_name= name; tmp_field->charsetnr= collation.collation->number; tmp_field->flags=maybe_null ? 0 : NOT_NULL_FLAG; tmp_field->type=field_type; tmp_field->length=max_length; tmp_field->decimals=decimals; if (unsigned_flag) tmp_field->flags |= UNSIGNED_FLAG; } void Item::make_field(Send_field *tmp_field) { init_make_field(tmp_field, field_type()); } void Item_empty_string::make_field(Send_field *tmp_field) { init_make_field(tmp_field,FIELD_TYPE_VAR_STRING); } enum_field_types Item::field_type() const { return ((result_type() == STRING_RESULT) ? FIELD_TYPE_VAR_STRING : (result_type() == INT_RESULT) ? FIELD_TYPE_LONGLONG : FIELD_TYPE_DOUBLE); } Field *Item::tmp_table_field_from_field_type(TABLE *table) { /* The field functions defines a field to be not null if null_ptr is not 0 */ uchar *null_ptr= maybe_null ? (uchar*) "" : 0; switch (field_type()) { case MYSQL_TYPE_DECIMAL: return new Field_decimal((char*) 0, max_length, null_ptr, 0, Field::NONE, name, table, decimals, 0, unsigned_flag); case MYSQL_TYPE_TINY: return new Field_tiny((char*) 0, max_length, null_ptr, 0, Field::NONE, name, table, 0, unsigned_flag); case MYSQL_TYPE_SHORT: return new Field_short((char*) 0, max_length, null_ptr, 0, Field::NONE, name, table, 0, unsigned_flag); case MYSQL_TYPE_LONG: return new Field_long((char*) 0, max_length, null_ptr, 0, Field::NONE, name, table, 0, unsigned_flag); #ifdef HAVE_LONG_LONG case MYSQL_TYPE_LONGLONG: return new Field_longlong((char*) 0, max_length, null_ptr, 0, Field::NONE, name, table, 0, unsigned_flag); #endif case MYSQL_TYPE_FLOAT: return new Field_float((char*) 0, max_length, null_ptr, 0, Field::NONE, name, table, decimals, 0, unsigned_flag); case MYSQL_TYPE_DOUBLE: return new Field_double((char*) 0, max_length, null_ptr, 0, Field::NONE, name, table, decimals, 0, unsigned_flag); case MYSQL_TYPE_NULL: return new Field_null((char*) 0, max_length, Field::NONE, name, table, &my_charset_bin); case MYSQL_TYPE_NEWDATE: case MYSQL_TYPE_INT24: return new Field_medium((char*) 0, max_length, null_ptr, 0, Field::NONE, name, table, 0, unsigned_flag); case MYSQL_TYPE_DATE: return new Field_date(maybe_null, name, table, &my_charset_bin); case MYSQL_TYPE_TIME: return new Field_time(maybe_null, name, table, &my_charset_bin); case MYSQL_TYPE_TIMESTAMP: case MYSQL_TYPE_DATETIME: return new Field_datetime(maybe_null, name, table, &my_charset_bin); case MYSQL_TYPE_YEAR: return new Field_year((char*) 0, max_length, null_ptr, 0, Field::NONE, name, table); default: /* This case should never be choosen */ DBUG_ASSERT(0); /* If something goes awfully wrong, it's better to get a string than die */ case MYSQL_TYPE_ENUM: case MYSQL_TYPE_SET: case MYSQL_TYPE_VAR_STRING: if (max_length > 255) break; // If blob return new Field_varstring(max_length, maybe_null, name, table, collation.collation); case MYSQL_TYPE_STRING: if (max_length > 255) // If blob break; return new Field_string(max_length, maybe_null, name, table, collation.collation); case MYSQL_TYPE_TINY_BLOB: case MYSQL_TYPE_MEDIUM_BLOB: case MYSQL_TYPE_LONG_BLOB: case MYSQL_TYPE_BLOB: case MYSQL_TYPE_GEOMETRY: break; // Blob handled outside of case } /* blob is special as it's generated for both blobs and long strings */ return new Field_blob(max_length, maybe_null, name, table, collation.collation); } /* ARGSUSED */ void Item_field::make_field(Send_field *tmp_field) { field->make_field(tmp_field); DBUG_ASSERT(tmp_field->table_name); if (name) tmp_field->col_name=name; // Use user supplied name } /* Set a field:s value from a item */ void Item_field::save_org_in_field(Field *to) { if (field->is_null()) { null_value=1; set_field_to_null_with_conversions(to, 1); } else { to->set_notnull(); field_conv(to,field); null_value=0; } } int Item_field::save_in_field(Field *to, bool no_conversions) { if (result_field->is_null()) { null_value=1; return set_field_to_null_with_conversions(to, no_conversions); } else { to->set_notnull(); field_conv(to,result_field); null_value=0; } return 0; } /* Store null in field SYNOPSIS save_in_field() field Field where we want to store NULL DESCRIPTION This is used on INSERT. Allow NULL to be inserted in timestamp and auto_increment values RETURN VALUES 0 ok 1 Field doesn't support NULL values and can't handle 'field = NULL' */ int Item_null::save_in_field(Field *field, bool no_conversions) { return set_field_to_null_with_conversions(field, no_conversions); } /* Store null in field SYNOPSIS save_safe_in_field() field Field where we want to store NULL RETURN VALUES 0 ok 1 Field doesn't support NULL values */ int Item_null::save_safe_in_field(Field *field) { return set_field_to_null(field); } int Item::save_in_field(Field *field, bool no_conversions) { int error; if (result_type() == STRING_RESULT || result_type() == REAL_RESULT && field->result_type() == STRING_RESULT) { String *result; CHARSET_INFO *cs= collation.collation; char buff[MAX_FIELD_WIDTH]; // Alloc buffer for small columns str_value.set_quick(buff, sizeof(buff), cs); result=val_str(&str_value); if (null_value) { str_value.set_quick(0, 0, cs); return set_field_to_null_with_conversions(field, no_conversions); } field->set_notnull(); error=field->store(result->ptr(),result->length(),cs); str_value.set_quick(0, 0, cs); } else if (result_type() == REAL_RESULT) { double nr=val(); if (null_value) return set_field_to_null(field); field->set_notnull(); error=field->store(nr); } else { longlong nr=val_int(); if (null_value) return set_field_to_null_with_conversions(field, no_conversions); field->set_notnull(); error=field->store(nr); } return error; } int Item_string::save_in_field(Field *field, bool no_conversions) { String *result; result=val_str(&str_value); if (null_value) return set_field_to_null(field); field->set_notnull(); return field->store(result->ptr(),result->length(),collation.collation); } int Item_uint::save_in_field(Field *field, bool no_conversions) { /* TODO: To be fixed when wen have a field->store(longlong, unsigned_flag) method */ return Item_int::save_in_field(field, no_conversions); } int Item_int::save_in_field(Field *field, bool no_conversions) { longlong nr=val_int(); if (null_value) return set_field_to_null(field); field->set_notnull(); return field->store(nr); } Item_num *Item_uint::neg() { return new Item_real(name, - ((double) value), 0, max_length); } int Item_real::save_in_field(Field *field, bool no_conversions) { double nr=val(); if (null_value) return set_field_to_null(field); field->set_notnull(); return field->store(nr); } void Item_real::print(String *str) { if (presentation) { str->append(presentation); return; } char buffer[20]; String num(buffer, sizeof(buffer), &my_charset_bin); num.set(value, decimals, &my_charset_bin); str->append(num); } /**************************************************************************** ** varbinary item ** In string context this is a binary string ** In number context this is a longlong value. ****************************************************************************/ inline uint char_val(char X) { return (uint) (X >= '0' && X <= '9' ? X-'0' : X >= 'A' && X <= 'Z' ? X-'A'+10 : X-'a'+10); } Item_varbinary::Item_varbinary(const char *str, uint str_length) { name=(char*) str-2; // Lex makes this start with 0x max_length=(str_length+1)/2; char *ptr=(char*) sql_alloc(max_length+1); if (!ptr) return; str_value.set(ptr,max_length,&my_charset_bin); char *end=ptr+max_length; if (max_length*2 != str_length) *ptr++=char_val(*str++); // Not even, assume 0 prefix while (ptr != end) { *ptr++= (char) (char_val(str[0])*16+char_val(str[1])); str+=2; } *ptr=0; // Keep purify happy collation.set(&my_charset_bin, DERIVATION_COERCIBLE); fixed= 1; } longlong Item_varbinary::val_int() { // following assert is redundant, because fixed=1 assigned in constructor DBUG_ASSERT(fixed == 1); char *end=(char*) str_value.ptr()+str_value.length(), *ptr=end-min(str_value.length(),sizeof(longlong)); ulonglong value=0; for (; ptr != end ; ptr++) value=(value << 8)+ (ulonglong) (uchar) *ptr; return (longlong) value; } int Item_varbinary::save_in_field(Field *field, bool no_conversions) { int error; field->set_notnull(); if (field->result_type() == STRING_RESULT) { error=field->store(str_value.ptr(),str_value.length(),collation.collation); } else { longlong nr=val_int(); error=field->store(nr); } return error; } /* Pack data in buffer for sending */ bool Item_null::send(Protocol *protocol, String *packet) { return protocol->store_null(); } /* This is only called from items that is not of type item_field */ bool Item::send(Protocol *protocol, String *buffer) { bool result; enum_field_types type; LINT_INIT(result); switch ((type=field_type())) { default: case MYSQL_TYPE_NULL: case MYSQL_TYPE_DECIMAL: case MYSQL_TYPE_ENUM: case MYSQL_TYPE_SET: case MYSQL_TYPE_TINY_BLOB: case MYSQL_TYPE_MEDIUM_BLOB: case MYSQL_TYPE_LONG_BLOB: case MYSQL_TYPE_BLOB: case MYSQL_TYPE_GEOMETRY: case MYSQL_TYPE_STRING: case MYSQL_TYPE_VAR_STRING: { String *res; if ((res=val_str(buffer))) result= protocol->store(res->ptr(),res->length(),res->charset()); break; } case MYSQL_TYPE_TINY: { longlong nr; nr= val_int(); if (!null_value) result= protocol->store_tiny(nr); break; } case MYSQL_TYPE_SHORT: { longlong nr; nr= val_int(); if (!null_value) result= protocol->store_short(nr); break; } case MYSQL_TYPE_INT24: case MYSQL_TYPE_LONG: { longlong nr; nr= val_int(); if (!null_value) result= protocol->store_long(nr); break; } case MYSQL_TYPE_LONGLONG: { longlong nr; nr= val_int(); if (!null_value) result= protocol->store_longlong(nr, unsigned_flag); break; } case MYSQL_TYPE_FLOAT: { float nr; nr= (float) val(); if (!null_value) result= protocol->store(nr, decimals, buffer); break; } case MYSQL_TYPE_DOUBLE: { double nr; nr= val(); if (!null_value) result= protocol->store(nr, decimals, buffer); break; } case MYSQL_TYPE_DATETIME: case MYSQL_TYPE_DATE: case MYSQL_TYPE_TIMESTAMP: { TIME tm; get_date(&tm, TIME_FUZZY_DATE); if (!null_value) { if (type == MYSQL_TYPE_DATE) return protocol->store_date(&tm); else result= protocol->store(&tm); } break; } case MYSQL_TYPE_TIME: { TIME tm; get_time(&tm); if (!null_value) result= protocol->store_time(&tm); break; } } if (null_value) result= protocol->store_null(); return result; } bool Item_field::send(Protocol *protocol, String *buffer) { return protocol->store(result_field); } /* This is used for HAVING clause Find field in select list having the same name */ bool Item_ref::fix_fields(THD *thd, TABLE_LIST *tables, Item **reference) { DBUG_ASSERT(fixed == 0); uint counter; if (!ref) { TABLE_LIST *table_list; bool upward_lookup= 0; SELECT_LEX_UNIT *prev_unit= thd->lex->current_select->master_unit(); SELECT_LEX *sl= prev_unit->outer_select(); /* Finding only in current select will be performed for selects that have not outer one and for derived tables (which not support using outer fields for now) */ if ((ref= find_item_in_list(this, *(thd->lex->current_select->get_item_list()), &counter, ((sl && thd->lex->current_select->master_unit()-> first_select()->linkage != DERIVED_TABLE_TYPE) ? REPORT_EXCEPT_NOT_FOUND : REPORT_ALL_ERRORS))) == (Item **)not_found_item) { upward_lookup= 1; Field *tmp= (Field*) not_found_field; /* We can't find table field in table list of current select, consequently we have to find it in outer subselect(s). We can't join lists of outer & current select, because of scope of view rules. For example if both tables (outer & current) have field 'field' it is not mistake to refer to this field without mention of table name, but if we join tables in one list it will cause error ER_NON_UNIQ_ERROR in find_item_in_list. */ SELECT_LEX *last=0; for ( ; sl ; sl= (prev_unit= sl->master_unit())->outer_select()) { last= sl; Item_subselect *prev_subselect_item= prev_unit->item; if (sl->resolve_mode == SELECT_LEX::SELECT_MODE && (ref= find_item_in_list(this, sl->item_list, &counter, REPORT_EXCEPT_NOT_FOUND)) != (Item **)not_found_item) { if (*ref && (*ref)->fixed) // Avoid crash in case of error { prev_subselect_item->used_tables_cache|= (*ref)->used_tables(); prev_subselect_item->const_item_cache&= (*ref)->const_item(); } break; } table_list= sl->get_table_list(); if (sl->resolve_mode == SELECT_LEX::INSERT_MODE && table_list) { // it is primary INSERT st_select_lex => skip first table resolving table_list= table_list->next_local; } if ((tmp= find_field_in_tables(thd, this, table_list, reference, 0, 1)) != not_found_field) { if (tmp) { if (tmp != view_ref_found) { prev_subselect_item->used_tables_cache|= tmp->table->map; prev_subselect_item->const_item_cache= 0; } else { prev_subselect_item->used_tables_cache|= (*reference)->used_tables(); prev_subselect_item->const_item_cache&= (*reference)->const_item(); } } break; } // Reference is not found => depend from outer (or just error) prev_subselect_item->used_tables_cache|= OUTER_REF_TABLE_BIT; prev_subselect_item->const_item_cache= 0; if (sl->master_unit()->first_select()->linkage == DERIVED_TABLE_TYPE) break; // do not look over derived table } if (!ref) return 1; else if (!tmp) return -1; else if (ref == (Item **)not_found_item && tmp == not_found_field) { if (upward_lookup) { // We can't say exactly what absend (table or field) my_printf_error(ER_BAD_FIELD_ERROR, ER(ER_BAD_FIELD_ERROR), MYF(0), full_name(), thd->where); } else { // Call to report error find_item_in_list(this, *(thd->lex->current_select->get_item_list()), &counter, REPORT_ALL_ERRORS); } ref= 0; return 1; } else if (tmp != not_found_field) { ref= 0; // To prevent "delete *ref;" on ~Item_erf() of this item if (tmp != view_ref_found) { Item_field* fld; if (!((*reference)= fld= new Item_field(tmp))) return 1; mark_as_dependent(thd, last, thd->lex->current_select, fld); return 0; register_item_tree_changing(reference); } /* We can leave expression substituted from view for next PS/SP rexecution (i.e. do not register this substitution for reverting on cleupup() (register_item_tree_changing())), because this subtree will be fix_field'ed during setup_tables()->setup_ancestor() (i.e. before all other expressions of query, and references on tables which do not present in query will not make problems. Also we suppose that view can't be changed during PS/SP life. */ } else { if (!(*ref)->fixed) { my_error(ER_ILLEGAL_REFERENCE, MYF(0), name, "forward reference in item list"); return -1; } mark_as_dependent(thd, last, thd->lex->current_select, this); ref= last->ref_pointer_array + counter; } } else if (!ref) return 1; else { if (!(*ref)->fixed) { my_error(ER_ILLEGAL_REFERENCE, MYF(0), name, "forward reference in item list"); return -1; } ref= thd->lex->current_select->ref_pointer_array + counter; } } /* The following conditional is changed as to correctly identify incorrect references in group functions or forward references with sub-select's / derived tables, while it prevents this check when Item_ref is created in an expression involving summing function, which is to be placed in the user variable. */ if (((*ref)->with_sum_func && name && (depended_from || !(thd->lex->current_select->linkage != GLOBAL_OPTIONS_TYPE && thd->lex->current_select->having_fix_field))) || !(*ref)->fixed) { my_error(ER_ILLEGAL_REFERENCE, MYF(0), name, ((*ref)->with_sum_func? "reference on group function": "forward reference in item list")); return 1; } max_length= (*ref)->max_length; maybe_null= (*ref)->maybe_null; decimals= (*ref)->decimals; collation.set((*ref)->collation); with_sum_func= (*ref)->with_sum_func; fixed= 1; if (ref && (*ref)->check_cols(1)) return 1; return 0; } void Item_ref::cleanup() { DBUG_ENTER("Item_ref::cleanup"); Item_ident::cleanup(); result_field= 0; if (hook_ptr) *hook_ptr= orig_item; DBUG_VOID_RETURN; } void Item_ref::print(String *str) { if (ref && *ref) (*ref)->print(str); else Item_ident::print(str); } bool Item_ref::send(Protocol *prot, String *tmp) { if (result_field) return prot->store(result_field); return (*ref)->send(prot, tmp); } double Item_ref::val_result() { if (result_field) { if ((null_value= result_field->is_null())) return 0.0; return result_field->val_real(); } return val(); } longlong Item_ref::val_int_result() { if (result_field) { if ((null_value= result_field->is_null())) return 0.0; return result_field->val_int(); } return val_int(); } String *Item_ref::str_result(String* str) { if (result_field) { if ((null_value= result_field->is_null())) return 0; str->set_charset(str_value.charset()); return result_field->val_str(str, &str_value); } return val_str(str); } void Item_ref_null_helper::print(String *str) { str->append("<ref_null_helper>(", 18); if (ref && *ref) (*ref)->print(str); else str->append('?'); str->append(')'); } void Item_null_helper::print(String *str) { str->append("<null_helper>(", 14); store->print(str); str->append(')'); } bool Item_default_value::eq(const Item *item, bool binary_cmp) const { return item->type() == DEFAULT_VALUE_ITEM && ((Item_default_value *)item)->arg->eq(arg, binary_cmp); } bool Item_default_value::fix_fields(THD *thd, struct st_table_list *table_list, Item **items) { DBUG_ASSERT(fixed == 0); if (!arg) { fixed= 1; return 0; } if (arg->fix_fields(thd, table_list, &arg)) return 1; if (arg->type() == REF_ITEM) { Item_ref *ref= (Item_ref *)arg; if (ref->ref[0]->type() != FIELD_ITEM) { return 1; } arg= ref->ref[0]; } Item_field *field_arg= (Item_field *)arg; Field *def_field= (Field*) sql_alloc(field_arg->field->size_of()); if (!def_field) return 1; memcpy(def_field, field_arg->field, field_arg->field->size_of()); def_field->move_field(def_field->table->default_values - def_field->table->record[0]); set_field(def_field); fixed= 1; return 0; } void Item_default_value::print(String *str) { if (!arg) { str->append("default", 7); return; } str->append("default(", 8); arg->print(str); str->append(')'); } bool Item_insert_value::eq(const Item *item, bool binary_cmp) const { return item->type() == INSERT_VALUE_ITEM && ((Item_default_value *)item)->arg->eq(arg, binary_cmp); } bool Item_insert_value::fix_fields(THD *thd, struct st_table_list *table_list, Item **items) { DBUG_ASSERT(fixed == 0); if (arg->fix_fields(thd, table_list, &arg)) return 1; if (arg->type() == REF_ITEM) { Item_ref *ref= (Item_ref *)arg; if (ref->ref[0]->type() != FIELD_ITEM) { return 1; } arg= ref->ref[0]; } Item_field *field_arg= (Item_field *)arg; if (field_arg->field->table->insert_values) { Field *def_field= (Field*) sql_alloc(field_arg->field->size_of()); if (!def_field) return 1; memcpy(def_field, field_arg->field, field_arg->field->size_of()); def_field->move_field(def_field->table->insert_values - def_field->table->record[0]); set_field(def_field); } else { Field *tmp_field= field_arg->field; /* charset doesn't matter here, it's to avoid sigsegv only */ set_field(new Field_null(0, 0, Field::NONE, tmp_field->field_name, tmp_field->table, &my_charset_bin)); } fixed= 1; return 0; } void Item_insert_value::print(String *str) { str->append("values(", 7); arg->print(str); str->append(')'); } /* If item is a const function, calculate it and return a const item The original item is freed if not returned */ Item_result item_cmp_type(Item_result a,Item_result b) { if (a == STRING_RESULT && b == STRING_RESULT) return STRING_RESULT; if (a == INT_RESULT && b == INT_RESULT) return INT_RESULT; else if (a == ROW_RESULT || b == ROW_RESULT) return ROW_RESULT; return REAL_RESULT; } Item *resolve_const_item(Item *item,Item *comp_item) { if (item->basic_const_item()) return item; // Can't be better Item_result res_type=item_cmp_type(comp_item->result_type(), item->result_type()); char *name=item->name; // Alloced by sql_alloc if (res_type == STRING_RESULT) { char buff[MAX_FIELD_WIDTH]; String tmp(buff,sizeof(buff),&my_charset_bin),*result; result=item->val_str(&tmp); if (item->null_value) return new Item_null(name); uint length=result->length(); char *tmp_str=sql_strmake(result->ptr(),length); return new Item_string(name,tmp_str,length,result->charset()); } if (res_type == INT_RESULT) { longlong result=item->val_int(); uint length=item->max_length; bool null_value=item->null_value; return (null_value ? (Item*) new Item_null(name) : (Item*) new Item_int(name,result,length)); } else { // It must REAL_RESULT double result=item->val(); uint length=item->max_length,decimals=item->decimals; bool null_value=item->null_value; return (null_value ? (Item*) new Item_null(name) : (Item*) new Item_real(name,result,decimals,length)); } } /* Return true if the value stored in the field is equal to the const item We need to use this on the range optimizer because in some cases we can't store the value in the field without some precision/character loss. */ bool field_is_equal_to_item(Field *field,Item *item) { Item_result res_type=item_cmp_type(field->result_type(), item->result_type()); if (res_type == STRING_RESULT) { char item_buff[MAX_FIELD_WIDTH]; char field_buff[MAX_FIELD_WIDTH]; String item_tmp(item_buff,sizeof(item_buff),&my_charset_bin),*item_result; String field_tmp(field_buff,sizeof(field_buff),&my_charset_bin); item_result=item->val_str(&item_tmp); if (item->null_value) return 1; // This must be true field->val_str(&field_tmp); return !stringcmp(&field_tmp,item_result); } if (res_type == INT_RESULT) return 1; // Both where of type int double result=item->val(); if (item->null_value) return 1; return result == field->val_real(); } Item_cache* Item_cache::get_cache(Item_result type) { switch (type) { case INT_RESULT: return new Item_cache_int(); case REAL_RESULT: return new Item_cache_real(); case STRING_RESULT: return new Item_cache_str(); case ROW_RESULT: return new Item_cache_row(); default: // should never be in real life DBUG_ASSERT(0); return 0; } } void Item_cache::print(String *str) { str->append("<cache>(", 8); if (example) example->print(str); else Item::print(str); str->append(')'); } void Item_cache_int::store(Item *item) { value= item->val_int_result(); null_value= item->null_value; } void Item_cache_real::store(Item *item) { value= item->val_result(); null_value= item->null_value; } void Item_cache_str::store(Item *item) { value_buff.set(buffer, sizeof(buffer), item->collation.collation); value= item->str_result(&value_buff); if ((null_value= item->null_value)) value= 0; else if (value != &value_buff) { /* We copy string value to avoid changing value if 'item' is table field in queries like following (where t1.c is varchar): select a, (select a,b,c from t1 where t1.a=t2.a) = ROW(a,2,'a'), (select c from t1 where a=t2.a) from t2; */ value_buff.copy(*value); value= &value_buff; } } double Item_cache_str::val() { DBUG_ASSERT(fixed == 1); int err; if (value) return my_strntod(value->charset(), (char*) value->ptr(), value->length(), (char**) 0, &err); else return (double)0; } longlong Item_cache_str::val_int() { DBUG_ASSERT(fixed == 1); int err; if (value) return my_strntoll(value->charset(), value->ptr(), value->length(), 10, (char**) 0, &err); else return (longlong)0; } bool Item_cache_row::allocate(uint num) { item_count= num; THD *thd= current_thd; return (!(values= (Item_cache **) thd->calloc(sizeof(Item_cache *)*item_count))); } bool Item_cache_row::setup(Item * item) { example= item; if (!values && allocate(item->cols())) return 1; for (uint i= 0; i < item_count; i++) { Item *el= item->el(i); Item_cache *tmp; if (!(tmp= values[i]= Item_cache::get_cache(el->result_type()))) return 1; tmp->setup(el); } return 0; } void Item_cache_row::store(Item * item) { null_value= 0; item->bring_value(); for (uint i= 0; i < item_count; i++) { values[i]->store(item->el(i)); null_value|= values[i]->null_value; } } void Item_cache_row::illegal_method_call(const char *method) { DBUG_ENTER("Item_cache_row::illegal_method_call"); DBUG_PRINT("error", ("!!! %s method was called for row item", method)); DBUG_ASSERT(0); my_error(ER_OPERAND_COLUMNS, MYF(0), 1); DBUG_VOID_RETURN; } bool Item_cache_row::check_cols(uint c) { if (c != item_count) { my_error(ER_OPERAND_COLUMNS, MYF(0), c); return 1; } return 0; } bool Item_cache_row::null_inside() { for (uint i= 0; i < item_count; i++) { if (values[i]->cols() > 1) { if (values[i]->null_inside()) return 1; } else { values[i]->val_int(); if (values[i]->null_value) return 1; } } return 0; } void Item_cache_row::bring_value() { for (uint i= 0; i < item_count; i++) values[i]->bring_value(); return; } Item_type_holder::Item_type_holder(THD *thd, Item *item) :Item(thd, item), item_type(item->result_type()), orig_type(item_type) { DBUG_ASSERT(item->fixed); /* It is safe assign pointer on field, because it will be used just after all JOIN::prepare calls and before any SELECT execution */ if (item->type() == Item::FIELD_ITEM) field_example= ((Item_field*) item)->field; else field_example= 0; max_length= real_length(item); collation.set(item->collation); } /* STRING_RESULT, REAL_RESULT, INT_RESULT, ROW_RESULT ROW_RESULT should never appear in Item_type_holder::join_types, but it is included in following table just to make table full (there DBUG_ASSERT in function to catch ROW_RESULT) */ static Item_result type_convertor[4][4]= {{STRING_RESULT, STRING_RESULT, STRING_RESULT, ROW_RESULT}, {STRING_RESULT, REAL_RESULT, REAL_RESULT, ROW_RESULT}, {STRING_RESULT, REAL_RESULT, INT_RESULT, ROW_RESULT}, {ROW_RESULT, ROW_RESULT, ROW_RESULT, ROW_RESULT}}; bool Item_type_holder::join_types(THD *thd, Item *item) { uint32 new_length= real_length(item); bool change_field= 0, skip_store_field= 0; Item_result new_type= type_convertor[item_type][item->result_type()]; // we have both fields if (field_example && item->type() == Item::FIELD_ITEM) { Field *field= ((Item_field *)item)->field; if (field_example->field_cast_type() != field->field_cast_type()) { if (!(change_field= field_example->field_cast_compatible(field->field_cast_type()))) { /* if old field can't store value of 'worse' new field we will make decision about result field type based only on Item result type */ if (!field->field_cast_compatible(field_example->field_cast_type())) skip_store_field= 1; } } } // size/type should be changed if (change_field || (new_type != item_type) || (max_length < new_length) || ((new_type == INT_RESULT) && (decimals < item->decimals)) || (!maybe_null && item->maybe_null) || (item_type == STRING_RESULT && new_type == STRING_RESULT && !my_charset_same(collation.collation, item->collation.collation))) { // new field has some parameters worse then current skip_store_field|= (change_field && (max_length > new_length) || ((new_type == INT_RESULT) && (decimals > item->decimals)) || (maybe_null && !item->maybe_null) || (item_type == STRING_RESULT && new_type == STRING_RESULT && !my_charset_same(collation.collation, item->collation.collation))); /* It is safe assign pointer on field, because it will be used just after all JOIN::prepare calls and before any SELECT execution */ if (skip_store_field || item->type() != Item::FIELD_ITEM) field_example= 0; else field_example= ((Item_field*) item)->field; const char *old_cs= collation.collation->name, *old_derivation= collation.derivation_name(); if (item_type == STRING_RESULT && collation.aggregate(item->collation)) { my_error(ER_CANT_AGGREGATE_2COLLATIONS, MYF(0), old_cs, old_derivation, item->collation.collation->name, item->collation.derivation_name(), "UNION"); return 1; } max_length= max(max_length, new_length); decimals= max(decimals, item->decimals); maybe_null|= item->maybe_null; item_type= new_type; } DBUG_ASSERT(item_type != ROW_RESULT); return 0; } uint32 Item_type_holder::real_length(Item *item) { if (item->type() == Item::FIELD_ITEM) { return ((Item_field *)item)->max_disp_length(); } switch (item->result_type()) { case STRING_RESULT: return item->max_length; case REAL_RESULT: return 53; case INT_RESULT: return 20; case ROW_RESULT: default: DBUG_ASSERT(0); // we should never go there return 0; } } double Item_type_holder::val() { DBUG_ASSERT(0); // should never be called return 0.0; } longlong Item_type_holder::val_int() { DBUG_ASSERT(0); // should never be called return 0; } String *Item_type_holder::val_str(String*) { DBUG_ASSERT(0); // should never be called return 0; } /***************************************************************************** ** Instantiate templates *****************************************************************************/ #ifdef __GNUC__ template class List<Item>; template class List_iterator<Item>; template class List_iterator_fast<Item>; template class List<List_item>; #endif