/* Copyright (c) 2000, 2013, Oracle and/or its affiliates. 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 */ /* Analyse database */ /* TODO: - Check if any character fields can be of any date type ** (date, datetime, year, time, timestamp, newdate) ** - Check if any number field should be a timestamp ** - type set is out of optimization yet */ #ifdef USE_PRAGMA_IMPLEMENTATION #pragma implementation // gcc: Class implementation #endif #define MYSQL_LEX 1 #include "mariadb.h" #include "sql_priv.h" #include "procedure.h" #include "sql_analyse.h" #include #define MAX_TREEMEM 8192 #define MAX_TREE_ELEMENTS 256 int sortcmp2(void* cmp_arg __attribute__((unused)), const String *a,const String *b) { return sortcmp(a,b,a->charset()); } int compare_double2(void* cmp_arg __attribute__((unused)), const double *s, const double *t) { return compare_double(s,t); } int compare_longlong2(void* cmp_arg __attribute__((unused)), const longlong *s, const longlong *t) { return compare_longlong(s,t); } int compare_ulonglong2(void* cmp_arg __attribute__((unused)), const ulonglong *s, const ulonglong *t) { return compare_ulonglong(s,t); } int compare_decimal2(int* len, const char *s, const char *t) { return memcmp(s, t, *len); } Procedure * proc_analyse_init(THD *thd, ORDER *param, select_result *result, List &field_list) { const char *proc_name = (*param->item)->name.str; analyse *pc = new analyse(result); field_info **f_info; DBUG_ENTER("proc_analyse_init"); if (!pc) DBUG_RETURN(0); if (!(param = param->next)) { pc->max_tree_elements = MAX_TREE_ELEMENTS; pc->max_treemem = MAX_TREEMEM; } else if (param->next) { // first parameter if ((*param->item)->fix_fields_if_needed(thd, param->item)) { DBUG_PRINT("info", ("fix_fields() for the first parameter failed")); goto err; } if ((*param->item)->type() != Item::INT_ITEM || (*param->item)->val_real() < 0) { my_error(ER_WRONG_PARAMETERS_TO_PROCEDURE, MYF(0), proc_name); goto err; } pc->max_tree_elements = (uint) (*param->item)->val_int(); param = param->next; if (param->next) // no third parameter possible { my_error(ER_WRONG_PARAMCOUNT_TO_PROCEDURE, MYF(0), proc_name); goto err; } // second parameter if ((*param->item)->fix_fields_if_needed(thd, param->item)) { DBUG_PRINT("info", ("fix_fields() for the second parameter failed")); goto err; } if ((*param->item)->type() != Item::INT_ITEM || (*param->item)->val_real() < 0) { my_error(ER_WRONG_PARAMETERS_TO_PROCEDURE, MYF(0), proc_name); goto err; } pc->max_treemem = (uint) (*param->item)->val_int(); } else if ((*param->item)->type() != Item::INT_ITEM || (*param->item)->val_real() < 0) { my_error(ER_WRONG_PARAMETERS_TO_PROCEDURE, MYF(0), proc_name); goto err; } // if only one parameter was given, it will be the value of max_tree_elements else { pc->max_tree_elements = (uint) (*param->item)->val_int(); pc->max_treemem = MAX_TREEMEM; } if (!(pc->f_info= (field_info**) thd->alloc(sizeof(field_info*) * field_list.elements))) goto err; pc->f_end = pc->f_info + field_list.elements; pc->fields = field_list; { List_iterator_fast it(pc->fields); f_info = pc->f_info; Item *item; while ((item = it++)) { field_info *new_field; switch (item->result_type()) { case INT_RESULT: // Check if fieldtype is ulonglong if (item->type() == Item::FIELD_ITEM && ((Item_field*) item)->field->type() == MYSQL_TYPE_LONGLONG && ((Field_longlong*) ((Item_field*) item)->field)->unsigned_flag) new_field= new field_ulonglong(item, pc); else new_field= new field_longlong(item, pc); break; case REAL_RESULT: new_field= new field_real(item, pc); break; case DECIMAL_RESULT: new_field= new field_decimal(item, pc); break; case STRING_RESULT: new_field= new field_str(item, pc); break; default: goto err; } *f_info++= new_field; } } DBUG_RETURN(pc); err: delete pc; DBUG_RETURN(0); } /* Return 1 if number, else return 0 store info about found number in info NOTE:It is expected, that elements of 'info' are all zero! */ bool test_if_number(NUM_INFO *info, const char *str, uint str_len) { const char *begin, *end= str + str_len; DBUG_ENTER("test_if_number"); /* MySQL removes any endspaces of a string, so we must take care only of spaces in front of a string */ for (; str != end && my_isspace(system_charset_info, *str); str++) ; if (str == end) DBUG_RETURN(0); if (*str == '-') { info->negative = 1; if (++str == end || *str == '0') // converting -0 to a number DBUG_RETURN(0); // might lose information } else info->negative = 0; begin = str; for (; str != end && my_isdigit(system_charset_info,*str); str++) { if (!info->integers && *str == '0' && (str + 1) != end && my_isdigit(system_charset_info,*(str + 1))) info->zerofill = 1; // could be a postnumber for example info->integers++; } if (str == end && info->integers) { char *endpos= (char*) end; int error; info->ullval= (ulonglong) my_strtoll10(begin, &endpos, &error); if (info->integers == 1) DBUG_RETURN(0); // single number can't be zerofill info->maybe_zerofill = 1; DBUG_RETURN(1); // a zerofill number, or an integer } if (*str == '.' || *str == 'e' || *str == 'E') { if (info->zerofill) // can't be zerofill anymore DBUG_RETURN(0); if ((str + 1) == end) // number was something like '123[.eE]' { char *endpos= (char*) str; int error; info->ullval= (ulonglong) my_strtoll10(begin, &endpos, &error); DBUG_RETURN(1); } if (*str == 'e' || *str == 'E') // number may be something like '1e+50' { str++; if (*str != '-' && *str != '+') DBUG_RETURN(0); for (str++; str != end && my_isdigit(system_charset_info,*str); str++) ; if (str == end) { info->is_float = 1; // we can't use variable decimals here DBUG_RETURN(1); } DBUG_RETURN(0); } for (str++; *(end - 1) == '0'; end--) // jump over zeros at the end ; if (str == end) // number was something like '123.000' { char *endpos= (char*) str; int error; info->ullval= (ulonglong) my_strtoll10(begin, &endpos, &error); DBUG_RETURN(1); } for (; str != end && my_isdigit(system_charset_info,*str); str++) info->decimals++; if (str == end) { info->dval = my_atof(begin); DBUG_RETURN(1); } } DBUG_RETURN(0); } /* Stores the biggest and the smallest value from current 'info' to ev_num_info If info contains an ulonglong number, which is bigger than biggest positive number able to be stored in a longlong variable and is marked as negative, function will return 0, else 1. */ bool get_ev_num_info(EV_NUM_INFO *ev_info, NUM_INFO *info, const char *num) { if (info->negative) { if (((longlong) info->ullval) < 0) return 0; // Impossible to store as a negative number ev_info->llval = -(longlong) MY_MAX((ulonglong) -ev_info->llval, info->ullval); ev_info->min_dval = (double) -MY_MAX(-ev_info->min_dval, info->dval); } else // ulonglong is as big as bigint in MySQL { if ((check_ulonglong(num, info->integers) == DECIMAL_NUM)) return 0; ev_info->ullval = (ulonglong) MY_MAX(ev_info->ullval, info->ullval); ev_info->max_dval = (double) MY_MAX(ev_info->max_dval, info->dval); } return 1; } // get_ev_num_info int free_string(void* str, TREE_FREE, void*) { ((String*)str)->free(); return 0; } void field_str::add() { char buff[MAX_FIELD_WIDTH], *ptr; String s(buff, sizeof(buff),&my_charset_bin), *res; ulong length; if (!(res = item->val_str(&s))) { nulls++; return; } if (!(length = res->length())) empty++; else { ptr = (char*) res->ptr(); if (*(ptr + (length - 1)) == ' ') must_be_blob = 1; } if (can_be_still_num) { bzero((char*) &num_info, sizeof(num_info)); if (!test_if_number(&num_info, res->ptr(), (uint) length)) can_be_still_num = 0; if (!found) { bzero((char*) &ev_num_info, sizeof(ev_num_info)); was_zero_fill = num_info.zerofill; } else if (num_info.zerofill != was_zero_fill && !was_maybe_zerofill) can_be_still_num = 0; // one more check needed, when length is counted if (can_be_still_num) can_be_still_num = get_ev_num_info(&ev_num_info, &num_info, res->ptr()); was_maybe_zerofill = num_info.maybe_zerofill; } /* Update min and max arguments */ if (!found) { found = 1; min_arg.copy(*res); max_arg.copy(*res); min_length = max_length = length; sum=length; } else if (length) { sum += length; if (length < min_length) min_length = length; if (length > max_length) max_length = length; if (sortcmp(res, &min_arg,item->collation.collation) < 0) min_arg.copy(*res); if (sortcmp(res, &max_arg,item->collation.collation) > 0) max_arg.copy(*res); } if (room_in_tree) { if (res != &s) s.copy(*res); if (!tree_search(&tree, (void*) &s, tree.custom_arg)) // If not in tree { s.copy(); // slow, when SAFE_MALLOC is in use if (!tree_insert(&tree, (void*) &s, 0, tree.custom_arg)) { room_in_tree = 0; // Remove tree, out of RAM ? delete_tree(&tree, 0); } else { bzero((char*) &s, sizeof(s)); // Let tree handle free of this if ((treemem += length) > pc->max_treemem) { room_in_tree = 0; // Remove tree, too big tree delete_tree(&tree, 0); } } } } if ((num_info.zerofill && (max_length != min_length)) || (was_zero_fill && (max_length != min_length))) can_be_still_num = 0; // zerofilled numbers must be of same length } // field_str::add void field_real::add() { char buff[MAX_FIELD_WIDTH], *ptr, *end; double num= item->val_real(); uint length, zero_count, decs; TREE_ELEMENT *element; if (item->null_value) { nulls++; return; } if (num == 0.0) empty++; if ((decs = decimals()) >= FLOATING_POINT_DECIMALS) { length= snprintf(buff, sizeof(buff), "%g", num); if (rint(num) != num) max_notzero_dec_len = 1; } else { #ifdef HAVE_SNPRINTF buff[sizeof(buff)-1]=0; // Safety snprintf(buff, sizeof(buff)-1, "%-.*f", (int) decs, num); length = (uint) strlen(buff); #else length= snprintf(buff, sizeof(buff), "%-.*f", (int) decs, num); #endif // We never need to check further than this end = buff + length - 1 - decs + max_notzero_dec_len; zero_count = 0; for (ptr = buff + length - 1; ptr > end && *ptr == '0'; ptr--) zero_count++; if ((decs - zero_count > max_notzero_dec_len)) max_notzero_dec_len = decs - zero_count; } if (room_in_tree) { if (!(element = tree_insert(&tree, (void*) &num, 0, tree.custom_arg))) { room_in_tree = 0; // Remove tree, out of RAM ? delete_tree(&tree, 0); } /* if element->count == 1, this element can be found only once from tree if element->count == 2, or more, this element is already in tree */ else if (element->count == 1 && (tree_elements++) >= pc->max_tree_elements) { room_in_tree = 0; // Remove tree, too many elements delete_tree(&tree, 0); } } if (!found) { found = 1; min_arg = max_arg = sum = num; sum_sqr = num * num; min_length = max_length = length; } else if (num != 0.0) { sum += num; sum_sqr += num * num; if (length < min_length) min_length = length; if (length > max_length) max_length = length; if (compare_double(&num, &min_arg) < 0) min_arg = num; if (compare_double(&num, &max_arg) > 0) max_arg = num; } } // field_real::add void field_decimal::add() { /*TODO - remove rounding stuff after decimal_div returns proper frac */ my_decimal dec_buf, *dec= item->val_decimal(&dec_buf); my_decimal rounded; uint length; TREE_ELEMENT *element; if (item->null_value) { nulls++; return; } my_decimal_round(E_DEC_FATAL_ERROR, dec, item->decimals, FALSE,&rounded); dec= &rounded; length= my_decimal_string_length(dec); if (decimal_is_zero(dec)) empty++; if (room_in_tree) { uchar buf[DECIMAL_MAX_FIELD_SIZE]; my_decimal2binary(E_DEC_FATAL_ERROR, dec, buf, item->max_length, item->decimals); if (!(element = tree_insert(&tree, (void*)buf, 0, tree.custom_arg))) { room_in_tree = 0; // Remove tree, out of RAM ? delete_tree(&tree, 0); } /* if element->count == 1, this element can be found only once from tree if element->count == 2, or more, this element is already in tree */ else if (element->count == 1 && (tree_elements++) >= pc->max_tree_elements) { room_in_tree = 0; // Remove tree, too many elements delete_tree(&tree, 0); } } if (!found) { found = 1; min_arg = max_arg = sum[0] = *dec; my_decimal_mul(E_DEC_FATAL_ERROR, sum_sqr, dec, dec); cur_sum= 0; min_length = max_length = length; } else if (!decimal_is_zero(dec)) { int next_cur_sum= cur_sum ^ 1; my_decimal sqr_buf; my_decimal_add(E_DEC_FATAL_ERROR, sum+next_cur_sum, sum+cur_sum, dec); my_decimal_mul(E_DEC_FATAL_ERROR, &sqr_buf, dec, dec); my_decimal_add(E_DEC_FATAL_ERROR, sum_sqr+next_cur_sum, sum_sqr+cur_sum, &sqr_buf); cur_sum= next_cur_sum; if (length < min_length) min_length = length; if (length > max_length) max_length = length; if (my_decimal_cmp(dec, &min_arg) < 0) { min_arg= *dec; } if (my_decimal_cmp(dec, &max_arg) > 0) { max_arg= *dec; } } } void field_longlong::add() { char buff[MAX_FIELD_WIDTH]; longlong num = item->val_int(); uint length = (uint) (longlong10_to_str(num, buff, -10) - buff); TREE_ELEMENT *element; if (item->null_value) { nulls++; return; } if (num == 0) empty++; if (room_in_tree) { if (!(element = tree_insert(&tree, (void*) &num, 0, tree.custom_arg))) { room_in_tree = 0; // Remove tree, out of RAM ? delete_tree(&tree, 0); } /* if element->count == 1, this element can be found only once from tree if element->count == 2, or more, this element is already in tree */ else if (element->count == 1 && (tree_elements++) >= pc->max_tree_elements) { room_in_tree = 0; // Remove tree, too many elements delete_tree(&tree, 0); } } if (!found) { found = 1; min_arg = max_arg = sum = num; sum_sqr = num * num; min_length = max_length = length; } else if (num != 0) { sum += num; sum_sqr += num * num; if (length < min_length) min_length = length; if (length > max_length) max_length = length; if (compare_longlong(&num, &min_arg) < 0) min_arg = num; if (compare_longlong(&num, &max_arg) > 0) max_arg = num; } } // field_longlong::add void field_ulonglong::add() { char buff[MAX_FIELD_WIDTH]; longlong num = item->val_int(); uint length = (uint) (longlong10_to_str(num, buff, 10) - buff); TREE_ELEMENT *element; if (item->null_value) { nulls++; return; } if (num == 0) empty++; if (room_in_tree) { if (!(element = tree_insert(&tree, (void*) &num, 0, tree.custom_arg))) { room_in_tree = 0; // Remove tree, out of RAM ? delete_tree(&tree, 0); } /* if element->count == 1, this element can be found only once from tree if element->count == 2, or more, this element is already in tree */ else if (element->count == 1 && (tree_elements++) >= pc->max_tree_elements) { room_in_tree = 0; // Remove tree, too many elements delete_tree(&tree, 0); } } if (!found) { found = 1; min_arg = max_arg = sum = num; sum_sqr = num * num; min_length = max_length = length; } else if (num != 0) { sum += num; sum_sqr += num * num; if (length < min_length) min_length = length; if (length > max_length) max_length = length; if (compare_ulonglong((ulonglong*) &num, &min_arg) < 0) min_arg = num; if (compare_ulonglong((ulonglong*) &num, &max_arg) > 0) max_arg = num; } } // field_ulonglong::add int analyse::send_row(List & /* field_list */) { field_info **f = f_info; rows++; for (;f != f_end; f++) { (*f)->add(); } return 0; } // analyse::send_row int analyse::end_of_records() { field_info **f = f_info; char buff[MAX_FIELD_WIDTH]; String *res, s_min(buff, sizeof(buff),&my_charset_bin), s_max(buff, sizeof(buff),&my_charset_bin), ans(buff, sizeof(buff),&my_charset_bin); for (; f != f_end; f++) { func_items[0]->set((*f)->item->full_name()); if (!(*f)->found) { func_items[1]->null_value = 1; func_items[2]->null_value = 1; } else { func_items[1]->null_value = 0; res = (*f)->get_min_arg(&s_min); func_items[1]->set(res->ptr(), res->length(), res->charset()); func_items[2]->null_value = 0; res = (*f)->get_max_arg(&s_max); func_items[2]->set(res->ptr(), res->length(), res->charset()); } func_items[3]->set((longlong) (*f)->min_length); func_items[4]->set((longlong) (*f)->max_length); func_items[5]->set((longlong) (*f)->empty); func_items[6]->set((longlong) (*f)->nulls); res = (*f)->avg(&s_max, rows); func_items[7]->set(res->ptr(), res->length(), res->charset()); func_items[8]->null_value = 0; res = (*f)->std(&s_max, rows); if (!res) func_items[8]->null_value = 1; else func_items[8]->set(res->ptr(), res->length(), res->charset()); /* count the dots, quotas, etc. in (ENUM("a","b","c"...)) If tree has been removed, don't suggest ENUM. treemem is used to measure the size of tree for strings, tree_elements is used to count the elements max_treemem tells how long the string starting from ENUM("... and ending to ..") shall at maximum be. If case is about numbers, max_tree_elements will tell the length of the above, now every number is considered as length 1 */ if (((*f)->treemem || (*f)->tree_elements) && (*f)->tree.elements_in_tree && (((*f)->treemem ? max_treemem : max_tree_elements) > (((*f)->treemem ? (*f)->treemem : (*f)->tree_elements) + ((*f)->tree.elements_in_tree * 3 - 1 + 6)))) { char tmp[331]; //331, because one double prec. num. can be this long String tmp_str(tmp, sizeof(tmp),&my_charset_bin); TREE_INFO tree_info; tree_info.str = &tmp_str; tree_info.found = 0; tree_info.item = (*f)->item; tmp_str.set(STRING_WITH_LEN("ENUM("),&my_charset_bin); tree_walk(&(*f)->tree, (*f)->collect_enum(), (char*) &tree_info, left_root_right); tmp_str.append(')'); if (!(*f)->nulls) tmp_str.append(STRING_WITH_LEN(" NOT NULL")); output_str_length = tmp_str.length(); func_items[9]->set(tmp_str.ptr(), tmp_str.length(), tmp_str.charset()); if (result->send_data(result_fields) > 0) return -1; continue; } ans.length(0); if (!(*f)->treemem && !(*f)->tree_elements) ans.append(STRING_WITH_LEN("CHAR(0)")); else if ((*f)->item->type() == Item::FIELD_ITEM) { switch (((Item_field*) (*f)->item)->field->real_type()) { case MYSQL_TYPE_TIMESTAMP: ans.append(STRING_WITH_LEN("TIMESTAMP")); break; case MYSQL_TYPE_DATETIME: ans.append(STRING_WITH_LEN("DATETIME")); break; case MYSQL_TYPE_DATE: case MYSQL_TYPE_NEWDATE: ans.append(STRING_WITH_LEN("DATE")); break; case MYSQL_TYPE_SET: ans.append(STRING_WITH_LEN("SET")); break; case MYSQL_TYPE_YEAR: ans.append(STRING_WITH_LEN("YEAR")); break; case MYSQL_TYPE_TIME: ans.append(STRING_WITH_LEN("TIME")); break; case MYSQL_TYPE_DECIMAL: ans.append(STRING_WITH_LEN("DECIMAL")); // if item is FIELD_ITEM, it _must_be_ Field_num in this case if (((Field_num*) ((Item_field*) (*f)->item)->field)->zerofill) ans.append(STRING_WITH_LEN(" ZEROFILL")); break; default: (*f)->get_opt_type(&ans, rows); break; } } if (!(*f)->nulls) ans.append(STRING_WITH_LEN(" NOT NULL")); func_items[9]->set(ans.ptr(), ans.length(), ans.charset()); if (result->send_data(result_fields) > 0) return -1; } return 0; } // analyse::end_of_records void field_str::get_opt_type(String *answer, ha_rows total_rows) { char buff[MAX_FIELD_WIDTH]; if (can_be_still_num) { if (num_info.is_float) snprintf(buff, sizeof(buff), "DOUBLE"); // number was like 1e+50... TODO: else if (num_info.decimals) // DOUBLE(%d,%d) sometime { if (num_info.dval > -FLT_MAX && num_info.dval < FLT_MAX) snprintf(buff, sizeof(buff), "FLOAT(%d,%d)", (num_info.integers + num_info.decimals), num_info.decimals); else snprintf(buff, sizeof(buff), "DOUBLE(%d,%d)", (num_info.integers + num_info.decimals), num_info.decimals); } else if (ev_num_info.llval >= -128 && ev_num_info.ullval <= (ulonglong) (ev_num_info.llval >= 0 ? 255 : 127)) snprintf(buff, sizeof(buff), "TINYINT(%d)", num_info.integers); else if (ev_num_info.llval >= INT_MIN16 && ev_num_info.ullval <= (ulonglong) (ev_num_info.llval >= 0 ? UINT_MAX16 : INT_MAX16)) snprintf(buff, sizeof(buff), "SMALLINT(%d)", num_info.integers); else if (ev_num_info.llval >= INT_MIN24 && ev_num_info.ullval <= (ulonglong) (ev_num_info.llval >= 0 ? UINT_MAX24 : INT_MAX24)) snprintf(buff, sizeof(buff), "MEDIUMINT(%d)", num_info.integers); else if (ev_num_info.llval >= INT_MIN32 && ev_num_info.ullval <= (ulonglong) (ev_num_info.llval >= 0 ? UINT_MAX32 : INT_MAX32)) snprintf(buff, sizeof(buff), "INT(%d)", num_info.integers); else snprintf(buff, sizeof(buff), "BIGINT(%d)", num_info.integers); answer->append(buff, (uint) strlen(buff)); if (ev_num_info.llval >= 0 && ev_num_info.min_dval >= 0) answer->append(STRING_WITH_LEN(" UNSIGNED")); if (num_info.zerofill) answer->append(STRING_WITH_LEN(" ZEROFILL")); } else if (max_length < 256) { if (must_be_blob) { if (item->collation.collation == &my_charset_bin) answer->append(STRING_WITH_LEN("TINYBLOB")); else answer->append(STRING_WITH_LEN("TINYTEXT")); } else if ((max_length * (total_rows - nulls)) < (sum + total_rows)) { snprintf(buff, sizeof(buff), "CHAR(%d)", (int) max_length); answer->append(buff, (uint) strlen(buff)); } else { snprintf(buff, sizeof(buff), "VARCHAR(%d)", (int) max_length); answer->append(buff, (uint) strlen(buff)); } } else if (max_length < (1L << 16)) { if (item->collation.collation == &my_charset_bin) answer->append(STRING_WITH_LEN("BLOB")); else answer->append(STRING_WITH_LEN("TEXT")); } else if (max_length < (1L << 24)) { if (item->collation.collation == &my_charset_bin) answer->append(STRING_WITH_LEN("MEDIUMBLOB")); else answer->append(STRING_WITH_LEN("MEDIUMTEXT")); } else { if (item->collation.collation == &my_charset_bin) answer->append(STRING_WITH_LEN("LONGBLOB")); else answer->append(STRING_WITH_LEN("LONGTEXT")); } } // field_str::get_opt_type void field_real::get_opt_type(String *answer, ha_rows total_rows __attribute__((unused))) { char buff[MAX_FIELD_WIDTH]; if (!max_notzero_dec_len) { int len= (int) max_length - ((item->decimals >= FLOATING_POINT_DECIMALS) ? 0 : (item->decimals + 1)); if (min_arg >= -128 && max_arg <= (min_arg >= 0 ? 255 : 127)) snprintf(buff, sizeof(buff), "TINYINT(%d)", len); else if (min_arg >= INT_MIN16 && max_arg <= (min_arg >= 0 ? UINT_MAX16 : INT_MAX16)) snprintf(buff, sizeof(buff), "SMALLINT(%d)", len); else if (min_arg >= INT_MIN24 && max_arg <= (min_arg >= 0 ? UINT_MAX24 : INT_MAX24)) snprintf(buff, sizeof(buff), "MEDIUMINT(%d)", len); else if (min_arg >= INT_MIN32 && max_arg <= (min_arg >= 0 ? UINT_MAX32 : INT_MAX32)) snprintf(buff, sizeof(buff), "INT(%d)", len); else snprintf(buff, sizeof(buff), "BIGINT(%d)", len); answer->append(buff, (uint) strlen(buff)); if (min_arg >= 0) answer->append(STRING_WITH_LEN(" UNSIGNED")); } else if (item->decimals >= FLOATING_POINT_DECIMALS) { if (min_arg >= -FLT_MAX && max_arg <= FLT_MAX) answer->append(STRING_WITH_LEN("FLOAT")); else answer->append(STRING_WITH_LEN("DOUBLE")); } else { if (min_arg >= -FLT_MAX && max_arg <= FLT_MAX) snprintf(buff, sizeof(buff), "FLOAT(%d,%d)", (int) max_length - (item->decimals + 1) + max_notzero_dec_len, max_notzero_dec_len); else snprintf(buff, sizeof(buff), "DOUBLE(%d,%d)", (int) max_length - (item->decimals + 1) + max_notzero_dec_len, max_notzero_dec_len); answer->append(buff, (uint) strlen(buff)); } // if item is FIELD_ITEM, it _must_be_ Field_num in this class if (item->type() == Item::FIELD_ITEM && // a single number shouldn't be zerofill (max_length - (item->decimals + 1)) != 1 && ((Field_num*) ((Item_field*) item)->field)->zerofill) answer->append(STRING_WITH_LEN(" ZEROFILL")); } // field_real::get_opt_type void field_longlong::get_opt_type(String *answer, ha_rows total_rows __attribute__((unused))) { char buff[MAX_FIELD_WIDTH]; if (min_arg >= -128 && max_arg <= (min_arg >= 0 ? 255 : 127)) snprintf(buff, sizeof(buff), "TINYINT(%d)", (int) max_length); else if (min_arg >= INT_MIN16 && max_arg <= (min_arg >= 0 ? UINT_MAX16 : INT_MAX16)) snprintf(buff, sizeof(buff), "SMALLINT(%d)", (int) max_length); else if (min_arg >= INT_MIN24 && max_arg <= (min_arg >= 0 ? UINT_MAX24 : INT_MAX24)) snprintf(buff, sizeof(buff), "MEDIUMINT(%d)", (int) max_length); else if (min_arg >= INT_MIN32 && max_arg <= (min_arg >= 0 ? UINT_MAX32 : INT_MAX32)) snprintf(buff, sizeof(buff), "INT(%d)", (int) max_length); else snprintf(buff, sizeof(buff), "BIGINT(%d)", (int) max_length); answer->append(buff, (uint) strlen(buff)); if (min_arg >= 0) answer->append(STRING_WITH_LEN(" UNSIGNED")); // if item is FIELD_ITEM, it _must_be_ Field_num in this class if ((item->type() == Item::FIELD_ITEM) && // a single number shouldn't be zerofill max_length != 1 && ((Field_num*) ((Item_field*) item)->field)->zerofill) answer->append(STRING_WITH_LEN(" ZEROFILL")); } // field_longlong::get_opt_type void field_ulonglong::get_opt_type(String *answer, ha_rows total_rows __attribute__((unused))) { char buff[MAX_FIELD_WIDTH]; if (max_arg < 256) snprintf(buff, sizeof(buff), "TINYINT(%d) UNSIGNED", (int) max_length); else if (max_arg <= ((2 * INT_MAX16) + 1)) snprintf(buff, sizeof(buff), "SMALLINT(%d) UNSIGNED", (int) max_length); else if (max_arg <= ((2 * INT_MAX24) + 1)) snprintf(buff, sizeof(buff), "MEDIUMINT(%d) UNSIGNED", (int) max_length); else if (max_arg < (((ulonglong) 1) << 32)) snprintf(buff, sizeof(buff), "INT(%d) UNSIGNED", (int) max_length); else snprintf(buff, sizeof(buff), "BIGINT(%d) UNSIGNED", (int) max_length); // if item is FIELD_ITEM, it _must_be_ Field_num in this class answer->append(buff, (uint) strlen(buff)); if (item->type() == Item::FIELD_ITEM && // a single number shouldn't be zerofill max_length != 1 && ((Field_num*) ((Item_field*) item)->field)->zerofill) answer->append(STRING_WITH_LEN(" ZEROFILL")); } //field_ulonglong::get_opt_type void field_decimal::get_opt_type(String *answer, ha_rows total_rows __attribute__((unused))) { my_decimal zero; char buff[MAX_FIELD_WIDTH]; uint length; my_decimal_set_zero(&zero); my_bool is_unsigned= (my_decimal_cmp(&zero, &min_arg) >= 0); length= snprintf(buff, sizeof(buff), "DECIMAL(%d, %d)", (int) (max_length - (item->decimals ? 1 : 0)), item->decimals); if (is_unsigned) length= (uint) (strmov(buff+length, " UNSIGNED")- buff); answer->append(buff, length); } String *field_decimal::get_min_arg(String *str) { my_decimal2string(E_DEC_FATAL_ERROR, &min_arg, 0, 0, '0', str); return str; } String *field_decimal::get_max_arg(String *str) { my_decimal2string(E_DEC_FATAL_ERROR, &max_arg, 0, 0, '0', str); return str; } String *field_decimal::avg(String *s, ha_rows rows) { if (!(rows - nulls)) { s->set_real((double) 0.0, 1,my_thd_charset); return s; } my_decimal num, avg_val, rounded_avg; int prec_increment= current_thd->variables.div_precincrement; int2my_decimal(E_DEC_FATAL_ERROR, rows - nulls, FALSE, &num); my_decimal_div(E_DEC_FATAL_ERROR, &avg_val, sum+cur_sum, &num, prec_increment); /* TODO remove this after decimal_div returns proper frac */ my_decimal_round(E_DEC_FATAL_ERROR, &avg_val, MY_MIN(sum[cur_sum].frac + prec_increment, DECIMAL_MAX_SCALE), FALSE,&rounded_avg); my_decimal2string(E_DEC_FATAL_ERROR, &rounded_avg, 0, 0, '0', s); return s; } String *field_decimal::std(String *s, ha_rows rows) { if (!(rows - nulls)) { s->set_real((double) 0.0, 1,my_thd_charset); return s; } my_decimal num, tmp, sum2, sum2d; double std_sqr; int prec_increment= current_thd->variables.div_precincrement; int2my_decimal(E_DEC_FATAL_ERROR, rows - nulls, FALSE, &num); my_decimal_mul(E_DEC_FATAL_ERROR, &sum2, sum+cur_sum, sum+cur_sum); my_decimal_div(E_DEC_FATAL_ERROR, &tmp, &sum2, &num, prec_increment); my_decimal_sub(E_DEC_FATAL_ERROR, &sum2, sum_sqr+cur_sum, &tmp); my_decimal_div(E_DEC_FATAL_ERROR, &tmp, &sum2, &num, prec_increment); my_decimal2double(E_DEC_FATAL_ERROR, &tmp, &std_sqr); s->set_real(((double) std_sqr <= 0.0 ? 0.0 : sqrt(std_sqr)), MY_MIN(item->decimals + prec_increment, NOT_FIXED_DEC), my_thd_charset); return s; } int collect_string(String *element, element_count count __attribute__((unused)), TREE_INFO *info) { if (info->found) info->str->append(','); else info->found = 1; info->str->append('\''); if (info->str->append_for_single_quote(element)) return 1; info->str->append('\''); return 0; } // collect_string int collect_real(double *element, element_count count __attribute__((unused)), TREE_INFO *info) { char buff[MAX_FIELD_WIDTH]; String s(buff, sizeof(buff),current_thd->charset()); if (info->found) info->str->append(','); else info->found = 1; info->str->append('\''); s.set_real(*element, info->item->decimals, current_thd->charset()); info->str->append(s); info->str->append('\''); return 0; } // collect_real int collect_decimal(uchar *element, element_count count, TREE_INFO *info) { char buff[DECIMAL_MAX_STR_LENGTH]; String s(buff, sizeof(buff),&my_charset_bin); if (info->found) info->str->append(','); else info->found = 1; my_decimal dec; binary2my_decimal(E_DEC_FATAL_ERROR, element, &dec, info->item->max_length, info->item->decimals); info->str->append('\''); my_decimal2string(E_DEC_FATAL_ERROR, &dec, 0, 0, '0', &s); info->str->append(s); info->str->append('\''); return 0; } int collect_longlong(longlong *element, element_count count __attribute__((unused)), TREE_INFO *info) { char buff[MAX_FIELD_WIDTH]; String s(buff, sizeof(buff),&my_charset_bin); if (info->found) info->str->append(','); else info->found = 1; info->str->append('\''); s.set(*element, current_thd->charset()); info->str->append(s); info->str->append('\''); return 0; } // collect_longlong int collect_ulonglong(ulonglong *element, element_count count __attribute__((unused)), TREE_INFO *info) { char buff[MAX_FIELD_WIDTH]; String s(buff, sizeof(buff),&my_charset_bin); if (info->found) info->str->append(','); else info->found = 1; info->str->append('\''); s.set(*element, current_thd->charset()); info->str->append(s); info->str->append('\''); return 0; } // collect_ulonglong bool analyse::change_columns(THD *thd, List &field_list) { MEM_ROOT *mem_root= thd->mem_root; field_list.empty(); func_items[0]= new (mem_root) Item_proc_string(thd, "Field_name", 255); func_items[1]= new (mem_root) Item_proc_string(thd, "Min_value", 255); func_items[1]->maybe_null = 1; func_items[2]= new (mem_root) Item_proc_string(thd, "Max_value", 255); func_items[2]->maybe_null = 1; func_items[3]= new (mem_root) Item_proc_int(thd, "Min_length"); func_items[4]= new (mem_root) Item_proc_int(thd, "Max_length"); func_items[5]= new (mem_root) Item_proc_int(thd, "Empties_or_zeros"); func_items[6]= new (mem_root) Item_proc_int(thd, "Nulls"); func_items[7]= new (mem_root) Item_proc_string(thd, "Avg_value_or_avg_length", 255); func_items[8]= new (mem_root) Item_proc_string(thd, "Std", 255); func_items[8]->maybe_null = 1; func_items[9]= new (mem_root) Item_proc_string(thd, "Optimal_fieldtype", MY_MAX(64, output_str_length)); for (uint i = 0; i < array_elements(func_items); i++) field_list.push_back(func_items[i], thd->mem_root); result_fields = field_list; return 0; } // analyse::change_columns int compare_double(const double *s, const double *t) { return ((*s < *t) ? -1 : *s > *t ? 1 : 0); } /* compare_double */ int compare_longlong(const longlong *s, const longlong *t) { return ((*s < *t) ? -1 : *s > *t ? 1 : 0); } /* compare_longlong */ int compare_ulonglong(const ulonglong *s, const ulonglong *t) { return ((*s < *t) ? -1 : *s > *t ? 1 : 0); } /* compare_ulonglong */ uint check_ulonglong(const char *str, uint length) { const char *long_str = "2147483647", *ulonglong_str = "18446744073709551615"; const uint long_len = 10, ulonglong_len = 20; while (*str == '0' && length) { str++; length--; } if (length < long_len) return NUM; uint smaller, bigger; const char *cmp; if (length == long_len) { cmp = long_str; smaller = NUM; bigger = LONG_NUM; } else if (length > ulonglong_len) return DECIMAL_NUM; else { cmp = ulonglong_str; smaller = LONG_NUM; bigger = DECIMAL_NUM; } while (*cmp && *cmp++ == *str++) ; return ((uchar) str[-1] <= (uchar) cmp[-1]) ? smaller : bigger; } /* check_ulonlong */