AlkantarClanX12
Current Path : /usr/include/mysql/server/private/ |
Current File : //usr/include/mysql/server/private/sql_analyse.h |
#ifndef SQL_ANALYSE_INCLUDED #define SQL_ANALYSE_INCLUDED /* Copyright (c) 2000, 2010, Oracle and/or its affiliates. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */ /* Analyse database */ #ifdef USE_PRAGMA_INTERFACE #pragma interface /* gcc class implementation */ #endif #include "procedure.h" /* Procedure */ #define my_thd_charset default_charset_info #define DEC_IN_AVG 4 typedef struct st_number_info { // if zerofill is true, the number must be zerofill, or string bool negative, is_float, zerofill, maybe_zerofill; int8 integers; int8 decimals; double dval; ulonglong ullval; } NUM_INFO; typedef struct st_extreme_value_number_info { ulonglong ullval; longlong llval; double max_dval, min_dval; } EV_NUM_INFO; typedef struct st_tree_info { bool found; String *str; Item *item; } TREE_INFO; uint check_ulonglong(const char *str, uint length); bool get_ev_num_info(EV_NUM_INFO *ev_info, NUM_INFO *info, const char *num); bool test_if_number(NUM_INFO *info, const char *str, uint str_len); int compare_double(const double *s, const double *t); int compare_double2(void* cmp_arg __attribute__((unused)), const double *s, const double *t); int compare_longlong(const longlong *s, const longlong *t); int compare_longlong2(void* cmp_arg __attribute__((unused)), const longlong *s, const longlong *t); int compare_ulonglong(const ulonglong *s, const ulonglong *t); int compare_ulonglong2(void* cmp_arg __attribute__((unused)), const ulonglong *s, const ulonglong *t); int compare_decimal2(int* len, const char *s, const char *t); Procedure *proc_analyse_init(THD *thd, ORDER *param, select_result *result, List<Item> &field_list); int free_string(void* str, TREE_FREE, void*); class analyse; class field_info :public Sql_alloc { protected: ulong treemem, tree_elements, empty, nulls, min_length, max_length; uint room_in_tree; bool found; TREE tree; Item *item; analyse *pc; public: field_info(Item* a, analyse* b) : treemem(0), tree_elements(0), empty(0), nulls(0), min_length(0), max_length(0), room_in_tree(1), found(0),item(a), pc(b) {}; virtual ~field_info() { delete_tree(&tree, 0); } virtual void add() = 0; virtual void get_opt_type(String*, ha_rows) = 0; virtual String *get_min_arg(String *) = 0; virtual String *get_max_arg(String *) = 0; virtual String *avg(String*, ha_rows) = 0; virtual String *std(String*, ha_rows) = 0; virtual tree_walk_action collect_enum() = 0; virtual uint decimals() { return 0; } friend class analyse; }; int collect_string(String *element, element_count count, TREE_INFO *info); int sortcmp2(void* cmp_arg __attribute__((unused)), const String *a,const String *b); class field_str :public field_info { String min_arg, max_arg; ulonglong sum; bool must_be_blob, was_zero_fill, was_maybe_zerofill, can_be_still_num; NUM_INFO num_info; EV_NUM_INFO ev_num_info; public: field_str(Item* a, analyse* b) :field_info(a,b), min_arg("",0,default_charset_info), max_arg("",0,default_charset_info), sum(0), must_be_blob(0), was_zero_fill(0), was_maybe_zerofill(0), can_be_still_num(1) { init_tree(&tree, 0, 0, sizeof(String), (qsort_cmp2) sortcmp2, free_string, NULL, MYF(MY_THREAD_SPECIFIC)); }; void add() override; void get_opt_type(String*, ha_rows) override; String *get_min_arg(String *not_used __attribute__((unused))) override { return &min_arg; } String *get_max_arg(String *not_used __attribute__((unused))) override { return &max_arg; } String *avg(String *s, ha_rows rows) override { if (!(rows - nulls)) s->set_real((double) 0.0, 1,my_thd_charset); else s->set_real((ulonglong2double(sum) / ulonglong2double(rows - nulls)), DEC_IN_AVG,my_thd_charset); return s; } friend int collect_string(String *element, element_count count, TREE_INFO *info); tree_walk_action collect_enum() override { return (tree_walk_action) collect_string; } String *std(String *s __attribute__((unused)), ha_rows rows __attribute__((unused))) override { return (String*) 0; } }; int collect_decimal(uchar *element, element_count count, TREE_INFO *info); class field_decimal :public field_info { my_decimal min_arg, max_arg; my_decimal sum[2], sum_sqr[2]; int cur_sum; int bin_size; public: field_decimal(Item* a, analyse* b) :field_info(a,b) { bin_size= my_decimal_get_binary_size(a->max_length, a->decimals); init_tree(&tree, 0, 0, bin_size, (qsort_cmp2)compare_decimal2, 0, (void *)&bin_size, MYF(MY_THREAD_SPECIFIC)); }; void add() override; void get_opt_type(String*, ha_rows) override; String *get_min_arg(String *) override; String *get_max_arg(String *) override; String *avg(String *s, ha_rows rows) override; friend int collect_decimal(uchar *element, element_count count, TREE_INFO *info); tree_walk_action collect_enum() override { return (tree_walk_action) collect_decimal; } String *std(String *s, ha_rows rows) override; }; int collect_real(double *element, element_count count, TREE_INFO *info); class field_real: public field_info { double min_arg, max_arg; double sum, sum_sqr; uint max_notzero_dec_len; public: field_real(Item* a, analyse* b) :field_info(a,b), min_arg(0), max_arg(0), sum(0), sum_sqr(0), max_notzero_dec_len(0) { init_tree(&tree, 0, 0, sizeof(double), (qsort_cmp2) compare_double2, NULL, NULL, MYF(MY_THREAD_SPECIFIC)); } void add() override; void get_opt_type(String*, ha_rows) override; String *get_min_arg(String *s) override { s->set_real(min_arg, item->decimals, my_thd_charset); return s; } String *get_max_arg(String *s) override { s->set_real(max_arg, item->decimals, my_thd_charset); return s; } String *avg(String *s, ha_rows rows) override { if (!(rows - nulls)) s->set_real((double) 0.0, 1,my_thd_charset); else s->set_real(((double)sum / (double) (rows - nulls)), item->decimals,my_thd_charset); return s; } String *std(String *s, ha_rows rows) override { double tmp = ulonglong2double(rows); if (!(tmp - nulls)) s->set_real((double) 0.0, 1,my_thd_charset); else { double tmp2 = ((sum_sqr - sum * sum / (tmp - nulls)) / (tmp - nulls)); s->set_real(((double) tmp2 <= 0.0 ? 0.0 : sqrt(tmp2)), item->decimals,my_thd_charset); } return s; } uint decimals() override { return item->decimals; } friend int collect_real(double *element, element_count count, TREE_INFO *info); tree_walk_action collect_enum() override { return (tree_walk_action) collect_real;} }; int collect_longlong(longlong *element, element_count count, TREE_INFO *info); class field_longlong: public field_info { longlong min_arg, max_arg; longlong sum, sum_sqr; public: field_longlong(Item* a, analyse* b) :field_info(a,b), min_arg(0), max_arg(0), sum(0), sum_sqr(0) { init_tree(&tree, 0, 0, sizeof(longlong), (qsort_cmp2) compare_longlong2, NULL, NULL, MYF(MY_THREAD_SPECIFIC)); } void add() override; void get_opt_type(String*, ha_rows) override; String *get_min_arg(String *s) override { s->set(min_arg,my_thd_charset); return s; } String *get_max_arg(String *s) override { s->set(max_arg,my_thd_charset); return s; } String *avg(String *s, ha_rows rows) override { if (!(rows - nulls)) s->set_real((double) 0.0, 1,my_thd_charset); else s->set_real(((double) sum / (double) (rows - nulls)), DEC_IN_AVG,my_thd_charset); return s; } String *std(String *s, ha_rows rows) override { double tmp = ulonglong2double(rows); if (!(tmp - nulls)) s->set_real((double) 0.0, 1,my_thd_charset); else { double tmp2 = ((sum_sqr - sum * sum / (tmp - nulls)) / (tmp - nulls)); s->set_real(((double) tmp2 <= 0.0 ? 0.0 : sqrt(tmp2)), DEC_IN_AVG,my_thd_charset); } return s; } friend int collect_longlong(longlong *element, element_count count, TREE_INFO *info); tree_walk_action collect_enum() override { return (tree_walk_action) collect_longlong;} }; int collect_ulonglong(ulonglong *element, element_count count, TREE_INFO *info); class field_ulonglong: public field_info { ulonglong min_arg, max_arg; ulonglong sum, sum_sqr; public: field_ulonglong(Item* a, analyse * b) :field_info(a,b), min_arg(0), max_arg(0), sum(0),sum_sqr(0) { init_tree(&tree, 0, 0, sizeof(ulonglong), (qsort_cmp2) compare_ulonglong2, NULL, NULL, MYF(MY_THREAD_SPECIFIC)); } void add() override; void get_opt_type(String*, ha_rows) override; String *get_min_arg(String *s) override { s->set(min_arg,my_thd_charset); return s; } String *get_max_arg(String *s) override { s->set(max_arg,my_thd_charset); return s; } String *avg(String *s, ha_rows rows) override { if (!(rows - nulls)) s->set_real((double) 0.0, 1,my_thd_charset); else s->set_real((ulonglong2double(sum) / ulonglong2double(rows - nulls)), DEC_IN_AVG,my_thd_charset); return s; } String *std(String *s, ha_rows rows) override { double tmp = ulonglong2double(rows); if (!(tmp - nulls)) s->set_real((double) 0.0, 1,my_thd_charset); else { double tmp2 = ((ulonglong2double(sum_sqr) - ulonglong2double(sum * sum) / (tmp - nulls)) / (tmp - nulls)); s->set_real(((double) tmp2 <= 0.0 ? 0.0 : sqrt(tmp2)), DEC_IN_AVG,my_thd_charset); } return s; } friend int collect_ulonglong(ulonglong *element, element_count count, TREE_INFO *info); tree_walk_action collect_enum() override { return (tree_walk_action) collect_ulonglong; } }; Procedure *proc_analyse_init(THD *thd, ORDER *param, select_result *result, List<Item> &field_list); class analyse: public Procedure { protected: Item_proc *func_items[10]; List<Item> fields, result_fields; field_info **f_info, **f_end; ha_rows rows; uint output_str_length; public: uint max_tree_elements, max_treemem; analyse(select_result *res) :Procedure(res, PROC_NO_SORT), f_info(0), rows(0), output_str_length(0) {} ~analyse() { if (f_info) { for (field_info **f=f_info; f != f_end; f++) delete (*f); } } void add() override {} bool change_columns(THD *thd, List<Item> &fields) override; int send_row(List<Item> &field_list) override; void end_group(void) override {} int end_of_records(void) override; friend Procedure *proc_analyse_init(THD *thd, ORDER *param, select_result *result, List<Item> &field_list); }; #endif /* SQL_ANALYSE_INCLUDED */