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|
#ifndef ITEM_CMPFUNC_INCLUDED
#define ITEM_CMPFUNC_INCLUDED
/* Copyright (C) 2000-2003 MySQL 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; 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
/* compare and test functions */
#ifdef USE_PRAGMA_INTERFACE
#pragma interface /* gcc class implementation */
#endif
extern Item_result item_cmp_type(Item_result a,Item_result b);
class Item_bool_func2;
class Arg_comparator;
typedef int (Arg_comparator::*arg_cmp_func)();
typedef int (*Item_field_cmpfunc)(Item_field *f1, Item_field *f2, void *arg);
class Arg_comparator: public Sql_alloc
{
Item **a, **b;
arg_cmp_func func;
Item_result_field *owner;
Arg_comparator *comparators; // used only for compare_row()
double precision;
/* Fields used in DATE/DATETIME comparison. */
THD *thd;
enum_field_types a_type, b_type; // Types of a and b items
Item *a_cache, *b_cache; // Cached values of a and b items
bool is_nulls_eq; // TRUE <=> compare for the EQUAL_FUNC
bool set_null; // TRUE <=> set owner->null_value
// when one of arguments is NULL.
enum enum_date_cmp_type { CMP_DATE_DFLT= 0, CMP_DATE_WITH_DATE,
CMP_DATE_WITH_STR, CMP_STR_WITH_DATE };
longlong (*get_value_a_func)(THD *thd, Item ***item_arg, Item **cache_arg,
Item *warn_item, bool *is_null);
longlong (*get_value_b_func)(THD *thd, Item ***item_arg, Item **cache_arg,
Item *warn_item, bool *is_null);
bool try_year_cmp_func(Item_result type);
public:
DTCollation cmp_collation;
/* Allow owner function to use string buffers. */
String value1, value2;
Arg_comparator(): thd(0), a_cache(0), b_cache(0), set_null(TRUE),
get_value_a_func(0), get_value_b_func(0) {};
Arg_comparator(Item **a1, Item **a2): a(a1), b(a2), thd(0),
a_cache(0), b_cache(0), set_null(TRUE),
get_value_a_func(0), get_value_b_func(0) {};
int set_compare_func(Item_result_field *owner, Item_result type);
inline int set_compare_func(Item_result_field *owner_arg)
{
return set_compare_func(owner_arg, item_cmp_type((*a)->result_type(),
(*b)->result_type()));
}
int set_cmp_func(Item_result_field *owner_arg,
Item **a1, Item **a2,
Item_result type);
inline int set_cmp_func(Item_result_field *owner_arg,
Item **a1, Item **a2, bool set_null_arg)
{
set_null= set_null_arg;
return set_cmp_func(owner_arg, a1, a2,
item_cmp_type((*a1)->result_type(),
(*a2)->result_type()));
}
inline int compare() { return (this->*func)(); }
int compare_string(); // compare args[0] & args[1]
int compare_binary_string(); // compare args[0] & args[1]
int compare_real(); // compare args[0] & args[1]
int compare_decimal(); // compare args[0] & args[1]
int compare_int_signed(); // compare args[0] & args[1]
int compare_int_signed_unsigned();
int compare_int_unsigned_signed();
int compare_int_unsigned();
int compare_row(); // compare args[0] & args[1]
int compare_e_string(); // compare args[0] & args[1]
int compare_e_binary_string(); // compare args[0] & args[1]
int compare_e_real(); // compare args[0] & args[1]
int compare_e_decimal(); // compare args[0] & args[1]
int compare_e_int(); // compare args[0] & args[1]
int compare_e_int_diff_signedness();
int compare_e_row(); // compare args[0] & args[1]
int compare_real_fixed();
int compare_e_real_fixed();
int compare_datetime(); // compare args[0] & args[1] as DATETIMEs
static enum enum_date_cmp_type can_compare_as_dates(Item *a, Item *b,
ulonglong *const_val_arg);
Item** cache_converted_constant(THD *thd, Item **value, Item **cache,
Item_result type);
void set_datetime_cmp_func(Item_result_field *owner_arg, Item **a1, Item **b1);
static arg_cmp_func comparator_matrix [5][2];
inline bool is_owner_equal_func()
{
return (owner->type() == Item::FUNC_ITEM &&
((Item_func*)owner)->functype() == Item_func::EQUAL_FUNC);
}
friend class Item_func;
};
class Item_bool_func :public Item_int_func
{
public:
Item_bool_func() :Item_int_func() {}
Item_bool_func(Item *a) :Item_int_func(a) {}
Item_bool_func(Item *a,Item *b) :Item_int_func(a,b) {}
Item_bool_func(THD *thd, Item_bool_func *item) :Item_int_func(thd, item) {}
bool is_bool_func() { return 1; }
void fix_length_and_dec() { decimals=0; max_length=1; }
uint decimal_precision() const { return 1; }
};
/**
Abstract Item class, to represent <code>X IS [NOT] (TRUE | FALSE)</code>
boolean predicates.
*/
class Item_func_truth : public Item_bool_func
{
public:
virtual bool val_bool();
virtual longlong val_int();
virtual void fix_length_and_dec();
virtual void print(String *str, enum_query_type query_type);
protected:
Item_func_truth(Item *a, bool a_value, bool a_affirmative)
: Item_bool_func(a), value(a_value), affirmative(a_affirmative)
{}
~Item_func_truth()
{}
private:
/**
True for <code>X IS [NOT] TRUE</code>,
false for <code>X IS [NOT] FALSE</code> predicates.
*/
const bool value;
/**
True for <code>X IS Y</code>, false for <code>X IS NOT Y</code> predicates.
*/
const bool affirmative;
};
/**
This Item represents a <code>X IS TRUE</code> boolean predicate.
*/
class Item_func_istrue : public Item_func_truth
{
public:
Item_func_istrue(Item *a) : Item_func_truth(a, true, true) {}
~Item_func_istrue() {}
virtual const char* func_name() const { return "istrue"; }
};
/**
This Item represents a <code>X IS NOT TRUE</code> boolean predicate.
*/
class Item_func_isnottrue : public Item_func_truth
{
public:
Item_func_isnottrue(Item *a) : Item_func_truth(a, true, false) {}
~Item_func_isnottrue() {}
virtual const char* func_name() const { return "isnottrue"; }
};
/**
This Item represents a <code>X IS FALSE</code> boolean predicate.
*/
class Item_func_isfalse : public Item_func_truth
{
public:
Item_func_isfalse(Item *a) : Item_func_truth(a, false, true) {}
~Item_func_isfalse() {}
virtual const char* func_name() const { return "isfalse"; }
};
/**
This Item represents a <code>X IS NOT FALSE</code> boolean predicate.
*/
class Item_func_isnotfalse : public Item_func_truth
{
public:
Item_func_isnotfalse(Item *a) : Item_func_truth(a, false, false) {}
~Item_func_isnotfalse() {}
virtual const char* func_name() const { return "isnotfalse"; }
};
class Item_cache;
#define UNKNOWN ((my_bool)-1)
/*
Item_in_optimizer(left_expr, Item_in_subselect(...))
Item_in_optimizer is used to wrap an instance of Item_in_subselect. This
class does the following:
- Evaluate the left expression and store it in Item_cache_* object (to
avoid re-evaluating it many times during subquery execution)
- Shortcut the evaluation of "NULL IN (...)" to NULL in the cases where we
don't care if the result is NULL or FALSE.
NOTE
It is not quite clear why the above listed functionality should be
placed into a separate class called 'Item_in_optimizer'.
*/
class Item_in_optimizer: public Item_bool_func
{
protected:
Item_cache *cache;
bool save_cache;
/*
Stores the value of "NULL IN (SELECT ...)" for uncorrelated subqueries:
UNKNOWN - "NULL in (SELECT ...)" has not yet been evaluated
FALSE - result is FALSE
TRUE - result is NULL
*/
my_bool result_for_null_param;
public:
Item_in_optimizer(Item *a, Item_in_subselect *b):
Item_bool_func(a, my_reinterpret_cast(Item *)(b)), cache(0),
save_cache(0), result_for_null_param(UNKNOWN)
{}
bool fix_fields(THD *, Item **);
bool fix_left(THD *thd, Item **ref);
bool is_null();
longlong val_int();
void cleanup();
const char *func_name() const { return "<in_optimizer>"; }
Item_cache **get_cache() { return &cache; }
void keep_top_level_cache();
};
class Comp_creator
{
public:
Comp_creator() {} /* Remove gcc warning */
virtual ~Comp_creator() {} /* Remove gcc warning */
virtual Item_bool_func2* create(Item *a, Item *b) const = 0;
virtual const char* symbol(bool invert) const = 0;
virtual bool eqne_op() const = 0;
virtual bool l_op() const = 0;
};
class Eq_creator :public Comp_creator
{
public:
Eq_creator() {} /* Remove gcc warning */
virtual ~Eq_creator() {} /* Remove gcc warning */
virtual Item_bool_func2* create(Item *a, Item *b) const;
virtual const char* symbol(bool invert) const { return invert? "<>" : "="; }
virtual bool eqne_op() const { return 1; }
virtual bool l_op() const { return 0; }
};
class Ne_creator :public Comp_creator
{
public:
Ne_creator() {} /* Remove gcc warning */
virtual ~Ne_creator() {} /* Remove gcc warning */
virtual Item_bool_func2* create(Item *a, Item *b) const;
virtual const char* symbol(bool invert) const { return invert? "=" : "<>"; }
virtual bool eqne_op() const { return 1; }
virtual bool l_op() const { return 0; }
};
class Gt_creator :public Comp_creator
{
public:
Gt_creator() {} /* Remove gcc warning */
virtual ~Gt_creator() {} /* Remove gcc warning */
virtual Item_bool_func2* create(Item *a, Item *b) const;
virtual const char* symbol(bool invert) const { return invert? "<=" : ">"; }
virtual bool eqne_op() const { return 0; }
virtual bool l_op() const { return 0; }
};
class Lt_creator :public Comp_creator
{
public:
Lt_creator() {} /* Remove gcc warning */
virtual ~Lt_creator() {} /* Remove gcc warning */
virtual Item_bool_func2* create(Item *a, Item *b) const;
virtual const char* symbol(bool invert) const { return invert? ">=" : "<"; }
virtual bool eqne_op() const { return 0; }
virtual bool l_op() const { return 1; }
};
class Ge_creator :public Comp_creator
{
public:
Ge_creator() {} /* Remove gcc warning */
virtual ~Ge_creator() {} /* Remove gcc warning */
virtual Item_bool_func2* create(Item *a, Item *b) const;
virtual const char* symbol(bool invert) const { return invert? "<" : ">="; }
virtual bool eqne_op() const { return 0; }
virtual bool l_op() const { return 0; }
};
class Le_creator :public Comp_creator
{
public:
Le_creator() {} /* Remove gcc warning */
virtual ~Le_creator() {} /* Remove gcc warning */
virtual Item_bool_func2* create(Item *a, Item *b) const;
virtual const char* symbol(bool invert) const { return invert? ">" : "<="; }
virtual bool eqne_op() const { return 0; }
virtual bool l_op() const { return 1; }
};
class Item_bool_func2 :public Item_int_func
{ /* Bool with 2 string args */
protected:
Arg_comparator cmp;
bool abort_on_null;
public:
Item_bool_func2(Item *a,Item *b)
:Item_int_func(a,b), cmp(tmp_arg, tmp_arg+1), abort_on_null(FALSE) {}
void fix_length_and_dec();
void set_cmp_func()
{
cmp.set_cmp_func(this, tmp_arg, tmp_arg+1, TRUE);
}
optimize_type select_optimize() const { return OPTIMIZE_OP; }
virtual enum Functype rev_functype() const { return UNKNOWN_FUNC; }
bool have_rev_func() const { return rev_functype() != UNKNOWN_FUNC; }
virtual inline void print(String *str, enum_query_type query_type)
{
Item_func::print_op(str, query_type);
}
bool is_null() { return test(args[0]->is_null() || args[1]->is_null()); }
bool is_bool_func() { return 1; }
CHARSET_INFO *compare_collation() { return cmp.cmp_collation.collation; }
uint decimal_precision() const { return 1; }
void top_level_item() { abort_on_null= TRUE; }
friend class Arg_comparator;
};
class Item_bool_rowready_func2 :public Item_bool_func2
{
public:
Item_bool_rowready_func2(Item *a, Item *b) :Item_bool_func2(a, b)
{
allowed_arg_cols= 0; // Fetch this value from first argument
}
Item *neg_transformer(THD *thd);
virtual Item *negated_item();
bool subst_argument_checker(uchar **arg) { return TRUE; }
};
class Item_func_not :public Item_bool_func
{
public:
Item_func_not(Item *a) :Item_bool_func(a) {}
longlong val_int();
enum Functype functype() const { return NOT_FUNC; }
const char *func_name() const { return "not"; }
Item *neg_transformer(THD *thd);
virtual void print(String *str, enum_query_type query_type);
};
class Item_maxmin_subselect;
/*
trigcond<param>(arg) ::= param? arg : TRUE
The class Item_func_trig_cond is used for guarded predicates
which are employed only for internal purposes.
A guarded predicate is an object consisting of an a regular or
a guarded predicate P and a pointer to a boolean guard variable g.
A guarded predicate P/g is evaluated to true if the value of the
guard g is false, otherwise it is evaluated to the same value that
the predicate P: val(P/g)= g ? val(P):true.
Guarded predicates allow us to include predicates into a conjunction
conditionally. Currently they are utilized for pushed down predicates
in queries with outer join operations.
In the future, probably, it makes sense to extend this class to
the objects consisting of three elements: a predicate P, a pointer
to a variable g and a firing value s with following evaluation
rule: val(P/g,s)= g==s? val(P) : true. It will allow us to build only
one item for the objects of the form P/g1/g2...
Objects of this class are built only for query execution after
the execution plan has been already selected. That's why this
class needs only val_int out of generic methods.
Current uses of Item_func_trig_cond objects:
- To wrap selection conditions when executing outer joins
- To wrap condition that is pushed down into subquery
*/
class Item_func_trig_cond: public Item_bool_func
{
bool *trig_var;
public:
Item_func_trig_cond(Item *a, bool *f) : Item_bool_func(a) { trig_var= f; }
longlong val_int() { return *trig_var ? args[0]->val_int() : 1; }
enum Functype functype() const { return TRIG_COND_FUNC; };
const char *func_name() const { return "trigcond"; };
bool const_item() const { return FALSE; }
bool *get_trig_var() { return trig_var; }
};
class Item_func_not_all :public Item_func_not
{
/* allow to check presence of values in max/min optimization */
Item_sum_hybrid *test_sum_item;
Item_maxmin_subselect *test_sub_item;
bool abort_on_null;
public:
bool show;
Item_func_not_all(Item *a)
:Item_func_not(a), test_sum_item(0), test_sub_item(0), abort_on_null(0),
show(0)
{}
virtual void top_level_item() { abort_on_null= 1; }
bool top_level() { return abort_on_null; }
longlong val_int();
enum Functype functype() const { return NOT_ALL_FUNC; }
const char *func_name() const { return "<not>"; }
virtual void print(String *str, enum_query_type query_type);
void set_sum_test(Item_sum_hybrid *item) { test_sum_item= item; };
void set_sub_test(Item_maxmin_subselect *item) { test_sub_item= item; };
bool empty_underlying_subquery();
Item *neg_transformer(THD *thd);
};
class Item_func_nop_all :public Item_func_not_all
{
public:
Item_func_nop_all(Item *a) :Item_func_not_all(a) {}
longlong val_int();
const char *func_name() const { return "<nop>"; }
Item *neg_transformer(THD *thd);
};
class Item_func_eq :public Item_bool_rowready_func2
{
public:
Item_func_eq(Item *a,Item *b) :Item_bool_rowready_func2(a,b) {}
longlong val_int();
enum Functype functype() const { return EQ_FUNC; }
enum Functype rev_functype() const { return EQ_FUNC; }
cond_result eq_cmp_result() const { return COND_TRUE; }
const char *func_name() const { return "="; }
Item *negated_item();
};
class Item_func_equal :public Item_bool_rowready_func2
{
public:
Item_func_equal(Item *a,Item *b) :Item_bool_rowready_func2(a,b) {};
longlong val_int();
void fix_length_and_dec();
table_map not_null_tables() const { return 0; }
enum Functype functype() const { return EQUAL_FUNC; }
enum Functype rev_functype() const { return EQUAL_FUNC; }
cond_result eq_cmp_result() const { return COND_TRUE; }
const char *func_name() const { return "<=>"; }
Item *neg_transformer(THD *thd) { return 0; }
};
class Item_func_ge :public Item_bool_rowready_func2
{
public:
Item_func_ge(Item *a,Item *b) :Item_bool_rowready_func2(a,b) {};
longlong val_int();
enum Functype functype() const { return GE_FUNC; }
enum Functype rev_functype() const { return LE_FUNC; }
cond_result eq_cmp_result() const { return COND_TRUE; }
const char *func_name() const { return ">="; }
Item *negated_item();
};
class Item_func_gt :public Item_bool_rowready_func2
{
public:
Item_func_gt(Item *a,Item *b) :Item_bool_rowready_func2(a,b) {};
longlong val_int();
enum Functype functype() const { return GT_FUNC; }
enum Functype rev_functype() const { return LT_FUNC; }
cond_result eq_cmp_result() const { return COND_FALSE; }
const char *func_name() const { return ">"; }
Item *negated_item();
};
class Item_func_le :public Item_bool_rowready_func2
{
public:
Item_func_le(Item *a,Item *b) :Item_bool_rowready_func2(a,b) {};
longlong val_int();
enum Functype functype() const { return LE_FUNC; }
enum Functype rev_functype() const { return GE_FUNC; }
cond_result eq_cmp_result() const { return COND_TRUE; }
const char *func_name() const { return "<="; }
Item *negated_item();
};
class Item_func_lt :public Item_bool_rowready_func2
{
public:
Item_func_lt(Item *a,Item *b) :Item_bool_rowready_func2(a,b) {}
longlong val_int();
enum Functype functype() const { return LT_FUNC; }
enum Functype rev_functype() const { return GT_FUNC; }
cond_result eq_cmp_result() const { return COND_FALSE; }
const char *func_name() const { return "<"; }
Item *negated_item();
};
class Item_func_ne :public Item_bool_rowready_func2
{
public:
Item_func_ne(Item *a,Item *b) :Item_bool_rowready_func2(a,b) {}
longlong val_int();
enum Functype functype() const { return NE_FUNC; }
cond_result eq_cmp_result() const { return COND_FALSE; }
optimize_type select_optimize() const { return OPTIMIZE_KEY; }
const char *func_name() const { return "<>"; }
Item *negated_item();
};
/*
The class Item_func_opt_neg is defined to factor out the functionality
common for the classes Item_func_between and Item_func_in. The objects
of these classes can express predicates or there negations.
The alternative approach would be to create pairs Item_func_between,
Item_func_notbetween and Item_func_in, Item_func_notin.
*/
class Item_func_opt_neg :public Item_int_func
{
public:
bool negated; /* <=> the item represents NOT <func> */
bool pred_level; /* <=> [NOT] <func> is used on a predicate level */
public:
Item_func_opt_neg(Item *a, Item *b, Item *c)
:Item_int_func(a, b, c), negated(0), pred_level(0) {}
Item_func_opt_neg(List<Item> &list)
:Item_int_func(list), negated(0), pred_level(0) {}
public:
inline void negate() { negated= !negated; }
inline void top_level_item() { pred_level= 1; }
Item *neg_transformer(THD *thd)
{
negated= !negated;
return this;
}
bool eq(const Item *item, bool binary_cmp) const;
bool subst_argument_checker(uchar **arg) { return TRUE; }
};
class Item_func_between :public Item_func_opt_neg
{
DTCollation cmp_collation;
public:
Item_result cmp_type;
String value0,value1,value2;
/* TRUE <=> arguments will be compared as dates. */
bool compare_as_dates;
/* Comparators used for DATE/DATETIME comparison. */
Arg_comparator ge_cmp, le_cmp;
Item_func_between(Item *a, Item *b, Item *c)
:Item_func_opt_neg(a, b, c), compare_as_dates(FALSE) {}
longlong val_int();
optimize_type select_optimize() const { return OPTIMIZE_KEY; }
enum Functype functype() const { return BETWEEN; }
const char *func_name() const { return "between"; }
bool fix_fields(THD *, Item **);
void fix_length_and_dec();
virtual void print(String *str, enum_query_type query_type);
bool is_bool_func() { return 1; }
CHARSET_INFO *compare_collation() { return cmp_collation.collation; }
uint decimal_precision() const { return 1; }
};
class Item_func_strcmp :public Item_bool_func2
{
public:
Item_func_strcmp(Item *a,Item *b) :Item_bool_func2(a,b) {}
longlong val_int();
optimize_type select_optimize() const { return OPTIMIZE_NONE; }
const char *func_name() const { return "strcmp"; }
virtual inline void print(String *str, enum_query_type query_type)
{
Item_func::print(str, query_type);
}
};
struct interval_range
{
Item_result type;
double dbl;
my_decimal dec;
};
class Item_func_interval :public Item_int_func
{
Item_row *row;
my_bool use_decimal_comparison;
interval_range *intervals;
public:
Item_func_interval(Item_row *a)
:Item_int_func(a),row(a),intervals(0)
{
allowed_arg_cols= 0; // Fetch this value from first argument
}
longlong val_int();
void fix_length_and_dec();
const char *func_name() const { return "interval"; }
uint decimal_precision() const { return 2; }
};
class Item_func_coalesce :public Item_func_numhybrid
{
protected:
enum_field_types cached_field_type;
Item_func_coalesce(Item *a, Item *b) :Item_func_numhybrid(a, b) {}
public:
Item_func_coalesce(List<Item> &list) :Item_func_numhybrid(list) {}
double real_op();
longlong int_op();
String *str_op(String *);
my_decimal *decimal_op(my_decimal *);
void fix_length_and_dec();
void find_num_type() {}
enum Item_result result_type () const { return hybrid_type; }
const char *func_name() const { return "coalesce"; }
table_map not_null_tables() const { return 0; }
enum_field_types field_type() const { return cached_field_type; }
};
class Item_func_ifnull :public Item_func_coalesce
{
protected:
bool field_type_defined;
public:
Item_func_ifnull(Item *a, Item *b) :Item_func_coalesce(a,b) {}
double real_op();
longlong int_op();
String *str_op(String *str);
my_decimal *decimal_op(my_decimal *);
enum_field_types field_type() const;
void fix_length_and_dec();
const char *func_name() const { return "ifnull"; }
Field *tmp_table_field(TABLE *table);
uint decimal_precision() const;
};
class Item_func_if :public Item_func
{
enum Item_result cached_result_type;
enum_field_types cached_field_type;
public:
Item_func_if(Item *a,Item *b,Item *c)
:Item_func(a,b,c), cached_result_type(INT_RESULT)
{}
double val_real();
longlong val_int();
String *val_str(String *str);
my_decimal *val_decimal(my_decimal *);
enum Item_result result_type () const { return cached_result_type; }
enum_field_types field_type() const { return cached_field_type; }
bool fix_fields(THD *, Item **);
void fix_length_and_dec();
uint decimal_precision() const;
const char *func_name() const { return "if"; }
};
class Item_func_nullif :public Item_bool_func2
{
enum Item_result cached_result_type;
public:
Item_func_nullif(Item *a,Item *b)
:Item_bool_func2(a,b), cached_result_type(INT_RESULT)
{}
double val_real();
longlong val_int();
String *val_str(String *str);
my_decimal *val_decimal(my_decimal *);
enum Item_result result_type () const { return cached_result_type; }
void fix_length_and_dec();
uint decimal_precision() const { return args[0]->decimal_precision(); }
const char *func_name() const { return "nullif"; }
virtual inline void print(String *str, enum_query_type query_type)
{
Item_func::print(str, query_type);
}
table_map not_null_tables() const { return 0; }
bool is_null();
};
/* Functions to handle the optimized IN */
/* A vector of values of some type */
class in_vector :public Sql_alloc
{
public:
char *base;
uint size;
qsort2_cmp compare;
CHARSET_INFO *collation;
uint count;
uint used_count;
in_vector() {}
in_vector(uint elements,uint element_length,qsort2_cmp cmp_func,
CHARSET_INFO *cmp_coll)
:base((char*) sql_calloc(elements*element_length)),
size(element_length), compare(cmp_func), collation(cmp_coll),
count(elements), used_count(elements) {}
virtual ~in_vector() {}
virtual void set(uint pos,Item *item)=0;
virtual uchar *get_value(Item *item)=0;
void sort()
{
my_qsort2(base,used_count,size,compare,collation);
}
int find(Item *item);
/*
Create an instance of Item_{type} (e.g. Item_decimal) constant object
which type allows it to hold an element of this vector without any
conversions.
The purpose of this function is to be able to get elements of this
vector in form of Item_xxx constants without creating Item_xxx object
for every array element you get (i.e. this implements "FlyWeight" pattern)
*/
virtual Item* create_item() { return NULL; }
/*
Store the value at position #pos into provided item object
SYNOPSIS
value_to_item()
pos Index of value to store
item Constant item to store value into. The item must be of the same
type that create_item() returns.
*/
virtual void value_to_item(uint pos, Item *item) { }
/* Compare values number pos1 and pos2 for equality */
bool compare_elems(uint pos1, uint pos2)
{
return test(compare(collation, base + pos1*size, base + pos2*size));
}
virtual Item_result result_type()= 0;
};
class in_string :public in_vector
{
char buff[STRING_BUFFER_USUAL_SIZE];
String tmp;
public:
in_string(uint elements,qsort2_cmp cmp_func, CHARSET_INFO *cs);
~in_string();
void set(uint pos,Item *item);
uchar *get_value(Item *item);
Item* create_item()
{
return new Item_string(collation);
}
void value_to_item(uint pos, Item *item)
{
String *str=((String*) base)+pos;
Item_string *to= (Item_string*)item;
to->str_value= *str;
}
Item_result result_type() { return STRING_RESULT; }
};
class in_longlong :public in_vector
{
protected:
/*
Here we declare a temporary variable (tmp) of the same type as the
elements of this vector. tmp is used in finding if a given value is in
the list.
*/
struct packed_longlong
{
longlong val;
longlong unsigned_flag; // Use longlong, not bool, to preserve alignment
} tmp;
public:
in_longlong(uint elements);
void set(uint pos,Item *item);
uchar *get_value(Item *item);
Item* create_item()
{
/*
We're created a signed INT, this may not be correct in
general case (see BUG#19342).
*/
return new Item_int((longlong)0);
}
void value_to_item(uint pos, Item *item)
{
((Item_int*) item)->value= ((packed_longlong*) base)[pos].val;
((Item_int*) item)->unsigned_flag= (my_bool)
((packed_longlong*) base)[pos].unsigned_flag;
}
Item_result result_type() { return INT_RESULT; }
friend int cmp_longlong(void *cmp_arg, packed_longlong *a,packed_longlong *b);
};
/*
Class to represent a vector of constant DATE/DATETIME values.
Values are obtained with help of the get_datetime_value() function.
If the left item is a constant one then its value is cached in the
lval_cache variable.
*/
class in_datetime :public in_longlong
{
public:
THD *thd;
/* An item used to issue warnings. */
Item *warn_item;
/* Cache for the left item. */
Item *lval_cache;
in_datetime(Item *warn_item_arg, uint elements)
:in_longlong(elements), thd(current_thd), warn_item(warn_item_arg),
lval_cache(0) {};
void set(uint pos,Item *item);
uchar *get_value(Item *item);
friend int cmp_longlong(void *cmp_arg, packed_longlong *a,packed_longlong *b);
};
class in_double :public in_vector
{
double tmp;
public:
in_double(uint elements);
void set(uint pos,Item *item);
uchar *get_value(Item *item);
Item *create_item()
{
return new Item_float(0.0, 0);
}
void value_to_item(uint pos, Item *item)
{
((Item_float*)item)->value= ((double*) base)[pos];
}
Item_result result_type() { return REAL_RESULT; }
};
class in_decimal :public in_vector
{
my_decimal val;
public:
in_decimal(uint elements);
void set(uint pos, Item *item);
uchar *get_value(Item *item);
Item *create_item()
{
return new Item_decimal(0, FALSE);
}
void value_to_item(uint pos, Item *item)
{
my_decimal *dec= ((my_decimal *)base) + pos;
Item_decimal *item_dec= (Item_decimal*)item;
item_dec->set_decimal_value(dec);
}
Item_result result_type() { return DECIMAL_RESULT; }
};
/*
** Classes for easy comparing of non const items
*/
class cmp_item :public Sql_alloc
{
public:
CHARSET_INFO *cmp_charset;
cmp_item() { cmp_charset= &my_charset_bin; }
virtual ~cmp_item() {}
virtual void store_value(Item *item)= 0;
virtual int cmp(Item *item)= 0;
// for optimized IN with row
virtual int compare(cmp_item *item)= 0;
static cmp_item* get_comparator(Item_result type, CHARSET_INFO *cs);
virtual cmp_item *make_same()= 0;
virtual void store_value_by_template(cmp_item *tmpl, Item *item)
{
store_value(item);
}
};
class cmp_item_string :public cmp_item
{
protected:
String *value_res;
public:
cmp_item_string () {}
cmp_item_string (CHARSET_INFO *cs) { cmp_charset= cs; }
void set_charset(CHARSET_INFO *cs) { cmp_charset= cs; }
friend class cmp_item_sort_string;
friend class cmp_item_sort_string_in_static;
};
class cmp_item_sort_string :public cmp_item_string
{
protected:
char value_buff[STRING_BUFFER_USUAL_SIZE];
String value;
public:
cmp_item_sort_string():
cmp_item_string() {}
cmp_item_sort_string(CHARSET_INFO *cs):
cmp_item_string(cs),
value(value_buff, sizeof(value_buff), cs) {}
void store_value(Item *item)
{
value_res= item->val_str(&value);
}
int cmp(Item *arg)
{
char buff[STRING_BUFFER_USUAL_SIZE];
String tmp(buff, sizeof(buff), cmp_charset), *res;
res= arg->val_str(&tmp);
return (value_res ? (res ? sortcmp(value_res, res, cmp_charset) : 1) :
(res ? -1 : 0));
}
int compare(cmp_item *ci)
{
cmp_item_string *l_cmp= (cmp_item_string *) ci;
return sortcmp(value_res, l_cmp->value_res, cmp_charset);
}
cmp_item *make_same();
void set_charset(CHARSET_INFO *cs)
{
cmp_charset= cs;
value.set_quick(value_buff, sizeof(value_buff), cs);
}
};
class cmp_item_int :public cmp_item
{
longlong value;
public:
cmp_item_int() {} /* Remove gcc warning */
void store_value(Item *item)
{
value= item->val_int();
}
int cmp(Item *arg)
{
return value != arg->val_int();
}
int compare(cmp_item *ci)
{
cmp_item_int *l_cmp= (cmp_item_int *)ci;
return (value < l_cmp->value) ? -1 : ((value == l_cmp->value) ? 0 : 1);
}
cmp_item *make_same();
};
/*
Compare items in the DATETIME context.
Values are obtained with help of the get_datetime_value() function.
If the left item is a constant one then its value is cached in the
lval_cache variable.
*/
class cmp_item_datetime :public cmp_item
{
longlong value;
public:
THD *thd;
/* Item used for issuing warnings. */
Item *warn_item;
/* Cache for the left item. */
Item *lval_cache;
cmp_item_datetime(Item *warn_item_arg)
:thd(current_thd), warn_item(warn_item_arg), lval_cache(0) {}
void store_value(Item *item);
int cmp(Item *arg);
int compare(cmp_item *ci);
cmp_item *make_same();
};
class cmp_item_real :public cmp_item
{
double value;
public:
cmp_item_real() {} /* Remove gcc warning */
void store_value(Item *item)
{
value= item->val_real();
}
int cmp(Item *arg)
{
return value != arg->val_real();
}
int compare(cmp_item *ci)
{
cmp_item_real *l_cmp= (cmp_item_real *) ci;
return (value < l_cmp->value)? -1 : ((value == l_cmp->value) ? 0 : 1);
}
cmp_item *make_same();
};
class cmp_item_decimal :public cmp_item
{
my_decimal value;
public:
cmp_item_decimal() {} /* Remove gcc warning */
void store_value(Item *item);
int cmp(Item *arg);
int compare(cmp_item *c);
cmp_item *make_same();
};
/*
cmp_item for optimized IN with row (right part string, which never
be changed)
*/
class cmp_item_sort_string_in_static :public cmp_item_string
{
protected:
String value;
public:
cmp_item_sort_string_in_static(CHARSET_INFO *cs):
cmp_item_string(cs) {}
void store_value(Item *item)
{
value_res= item->val_str(&value);
}
int cmp(Item *item)
{
// Should never be called
DBUG_ASSERT(0);
return 1;
}
int compare(cmp_item *ci)
{
cmp_item_string *l_cmp= (cmp_item_string *) ci;
return sortcmp(value_res, l_cmp->value_res, cmp_charset);
}
cmp_item *make_same()
{
return new cmp_item_sort_string_in_static(cmp_charset);
}
};
/*
The class Item_func_case is the CASE ... WHEN ... THEN ... END function
implementation.
When there is no expression between CASE and the first WHEN
(the CASE expression) then this function simple checks all WHEN expressions
one after another. When some WHEN expression evaluated to TRUE then the
value of the corresponding THEN expression is returned.
When the CASE expression is specified then it is compared to each WHEN
expression individually. When an equal WHEN expression is found
corresponding THEN expression is returned.
In order to do correct comparisons several comparators are used. One for
each result type. Different result types that are used in particular
CASE ... END expression are collected in the fix_length_and_dec() member
function and only comparators for there result types are used.
*/
class Item_func_case :public Item_func
{
int first_expr_num, else_expr_num;
enum Item_result cached_result_type, left_result_type;
String tmp_value;
uint ncases;
Item_result cmp_type;
DTCollation cmp_collation;
enum_field_types cached_field_type;
cmp_item *cmp_items[5]; /* For all result types */
cmp_item *case_item;
public:
Item_func_case(List<Item> &list, Item *first_expr_arg, Item *else_expr_arg)
:Item_func(), first_expr_num(-1), else_expr_num(-1),
cached_result_type(INT_RESULT), left_result_type(INT_RESULT), case_item(0)
{
ncases= list.elements;
if (first_expr_arg)
{
first_expr_num= list.elements;
list.push_back(first_expr_arg);
}
if (else_expr_arg)
{
else_expr_num= list.elements;
list.push_back(else_expr_arg);
}
set_arguments(list);
bzero(&cmp_items, sizeof(cmp_items));
}
double val_real();
longlong val_int();
String *val_str(String *);
my_decimal *val_decimal(my_decimal *);
bool fix_fields(THD *thd, Item **ref);
void fix_length_and_dec();
uint decimal_precision() const;
table_map not_null_tables() const { return 0; }
enum Item_result result_type () const { return cached_result_type; }
enum_field_types field_type() const { return cached_field_type; }
const char *func_name() const { return "case"; }
virtual void print(String *str, enum_query_type query_type);
Item *find_item(String *str);
CHARSET_INFO *compare_collation() { return cmp_collation.collation; }
void cleanup();
void agg_str_lengths(Item *arg);
void agg_num_lengths(Item *arg);
};
/*
The Item_func_in class implements the in_expr IN(values_list) function.
The current implementation distinguishes 2 cases:
1) all items in the value_list are constants and have the same
result type. This case is handled by in_vector class.
2) items in the value_list have different result types or there is some
non-constant items.
In this case Item_func_in employs several cmp_item objects to performs
comparisons of in_expr and an item from the values_list. One cmp_item
object for each result type. Different result types are collected in the
fix_length_and_dec() member function by means of collect_cmp_types()
function.
*/
class Item_func_in :public Item_func_opt_neg
{
public:
/*
an array of values when the right hand arguments of IN
are all SQL constant and there are no nulls
*/
in_vector *array;
bool have_null;
/*
true when all arguments of the IN clause are of compatible types
and can be used safely as comparisons for key conditions
*/
bool arg_types_compatible;
Item_result left_result_type;
cmp_item *cmp_items[6]; /* One cmp_item for each result type */
DTCollation cmp_collation;
Item_func_in(List<Item> &list)
:Item_func_opt_neg(list), array(0), have_null(0),
arg_types_compatible(FALSE)
{
bzero(&cmp_items, sizeof(cmp_items));
allowed_arg_cols= 0; // Fetch this value from first argument
}
longlong val_int();
bool fix_fields(THD *, Item **);
void fix_length_and_dec();
uint decimal_precision() const { return 1; }
void cleanup()
{
uint i;
DBUG_ENTER("Item_func_in::cleanup");
Item_int_func::cleanup();
delete array;
array= 0;
for (i= 0; i <= (uint)DECIMAL_RESULT + 1; i++)
{
delete cmp_items[i];
cmp_items[i]= 0;
}
DBUG_VOID_RETURN;
}
optimize_type select_optimize() const
{ return OPTIMIZE_KEY; }
virtual void print(String *str, enum_query_type query_type);
enum Functype functype() const { return IN_FUNC; }
const char *func_name() const { return " IN "; }
bool nulls_in_row();
bool is_bool_func() { return 1; }
CHARSET_INFO *compare_collation() { return cmp_collation.collation; }
};
class cmp_item_row :public cmp_item
{
cmp_item **comparators;
uint n;
public:
cmp_item_row(): comparators(0), n(0) {}
~cmp_item_row();
void store_value(Item *item);
inline void alloc_comparators();
int cmp(Item *arg);
int compare(cmp_item *arg);
cmp_item *make_same();
void store_value_by_template(cmp_item *tmpl, Item *);
friend void Item_func_in::fix_length_and_dec();
};
class in_row :public in_vector
{
cmp_item_row tmp;
public:
in_row(uint elements, Item *);
~in_row();
void set(uint pos,Item *item);
uchar *get_value(Item *item);
friend void Item_func_in::fix_length_and_dec();
Item_result result_type() { return ROW_RESULT; }
};
/* Functions used by where clause */
class Item_func_isnull :public Item_bool_func
{
protected:
longlong cached_value;
public:
Item_func_isnull(Item *a) :Item_bool_func(a) {}
longlong val_int();
enum Functype functype() const { return ISNULL_FUNC; }
void fix_length_and_dec()
{
decimals=0; max_length=1; maybe_null=0;
update_used_tables();
}
const char *func_name() const { return "isnull"; }
/* Optimize case of not_null_column IS NULL */
virtual void update_used_tables()
{
if (!args[0]->maybe_null)
{
used_tables_cache= 0; /* is always false */
const_item_cache= 1;
cached_value= (longlong) 0;
}
else
{
args[0]->update_used_tables();
if ((const_item_cache= !(used_tables_cache= args[0]->used_tables())) &&
!with_subselect)
{
/* Remember if the value is always NULL or never NULL */
cached_value= (longlong) args[0]->is_null();
}
}
}
table_map not_null_tables() const { return 0; }
optimize_type select_optimize() const { return OPTIMIZE_NULL; }
Item *neg_transformer(THD *thd);
CHARSET_INFO *compare_collation() { return args[0]->collation.collation; }
};
/* Functions used by HAVING for rewriting IN subquery */
class Item_in_subselect;
/*
This is like IS NOT NULL but it also remembers if it ever has
encountered a NULL.
*/
class Item_is_not_null_test :public Item_func_isnull
{
Item_in_subselect* owner;
public:
Item_is_not_null_test(Item_in_subselect* ow, Item *a)
:Item_func_isnull(a), owner(ow)
{}
enum Functype functype() const { return ISNOTNULLTEST_FUNC; }
longlong val_int();
const char *func_name() const { return "<is_not_null_test>"; }
void update_used_tables();
/*
we add RAND_TABLE_BIT to prevent moving this item from HAVING to WHERE
*/
table_map used_tables() const
{ return used_tables_cache | RAND_TABLE_BIT; }
};
class Item_func_isnotnull :public Item_bool_func
{
bool abort_on_null;
public:
Item_func_isnotnull(Item *a) :Item_bool_func(a), abort_on_null(0) {}
longlong val_int();
enum Functype functype() const { return ISNOTNULL_FUNC; }
void fix_length_and_dec()
{
decimals=0; max_length=1; maybe_null=0;
}
const char *func_name() const { return "isnotnull"; }
optimize_type select_optimize() const { return OPTIMIZE_NULL; }
table_map not_null_tables() const
{ return abort_on_null ? not_null_tables_cache : 0; }
Item *neg_transformer(THD *thd);
virtual void print(String *str, enum_query_type query_type);
CHARSET_INFO *compare_collation() { return args[0]->collation.collation; }
void top_level_item() { abort_on_null=1; }
};
class Item_func_like :public Item_bool_func2
{
// Turbo Boyer-Moore data
bool canDoTurboBM; // pattern is '%abcd%' case
const char* pattern;
int pattern_len;
// TurboBM buffers, *this is owner
int* bmGs; // good suffix shift table, size is pattern_len + 1
int* bmBc; // bad character shift table, size is alphabet_size
void turboBM_compute_suffixes(int* suff);
void turboBM_compute_good_suffix_shifts(int* suff);
void turboBM_compute_bad_character_shifts();
bool turboBM_matches(const char* text, int text_len) const;
enum { alphabet_size = 256 };
Item *escape_item;
bool escape_used_in_parsing;
public:
int escape;
Item_func_like(Item *a,Item *b, Item *escape_arg, bool escape_used)
:Item_bool_func2(a,b), canDoTurboBM(FALSE), pattern(0), pattern_len(0),
bmGs(0), bmBc(0), escape_item(escape_arg),
escape_used_in_parsing(escape_used) {}
longlong val_int();
enum Functype functype() const { return LIKE_FUNC; }
optimize_type select_optimize() const;
cond_result eq_cmp_result() const { return COND_TRUE; }
const char *func_name() const { return "like"; }
bool fix_fields(THD *thd, Item **ref);
void cleanup();
};
#ifdef USE_REGEX
#include "my_regex.h"
class Item_func_regex :public Item_bool_func
{
my_regex_t preg;
bool regex_compiled;
bool regex_is_const;
String prev_regexp;
DTCollation cmp_collation;
CHARSET_INFO *regex_lib_charset;
int regex_lib_flags;
String conv;
int regcomp(bool send_error);
public:
Item_func_regex(Item *a,Item *b) :Item_bool_func(a,b),
regex_compiled(0),regex_is_const(0) {}
void cleanup();
longlong val_int();
bool fix_fields(THD *thd, Item **ref);
const char *func_name() const { return "regexp"; }
virtual inline void print(String *str, enum_query_type query_type)
{
print_op(str, query_type);
}
CHARSET_INFO *compare_collation() { return cmp_collation.collation; }
};
#else
class Item_func_regex :public Item_bool_func
{
public:
Item_func_regex(Item *a,Item *b) :Item_bool_func(a,b) {}
longlong val_int() { return 0;}
const char *func_name() const { return "regex"; }
virtual inline void print(String *str, enum_query_type query_type)
{
print_op(str, query_type);
}
};
#endif /* USE_REGEX */
typedef class Item COND;
class Item_cond :public Item_bool_func
{
protected:
List<Item> list;
bool abort_on_null;
table_map and_tables_cache;
public:
/* Item_cond() is only used to create top level items */
Item_cond(): Item_bool_func(), abort_on_null(1)
{ const_item_cache=0; }
Item_cond(Item *i1,Item *i2)
:Item_bool_func(), abort_on_null(0)
{
list.push_back(i1);
list.push_back(i2);
}
Item_cond(THD *thd, Item_cond *item);
Item_cond(List<Item> &nlist)
:Item_bool_func(), list(nlist), abort_on_null(0) {}
bool add(Item *item) { return list.push_back(item); }
bool add_at_head(Item *item) { return list.push_front(item); }
void add_at_head(List<Item> *nlist) { list.prepand(nlist); }
bool fix_fields(THD *, Item **ref);
enum Type type() const { return COND_ITEM; }
List<Item>* argument_list() { return &list; }
table_map used_tables() const;
void update_used_tables();
virtual void print(String *str, enum_query_type query_type);
void split_sum_func(THD *thd, Item **ref_pointer_array, List<Item> &fields);
friend int setup_conds(THD *thd, TABLE_LIST *tables, TABLE_LIST *leaves,
COND **conds);
void top_level_item() { abort_on_null=1; }
void copy_andor_arguments(THD *thd, Item_cond *item);
bool walk(Item_processor processor, bool walk_subquery, uchar *arg);
Item *transform(Item_transformer transformer, uchar *arg);
void traverse_cond(Cond_traverser, void *arg, traverse_order order);
void neg_arguments(THD *thd);
enum_field_types field_type() const { return MYSQL_TYPE_LONGLONG; }
bool subst_argument_checker(uchar **arg) { return TRUE; }
Item *compile(Item_analyzer analyzer, uchar **arg_p,
Item_transformer transformer, uchar *arg_t);
};
/*
The class Item_equal is used to represent conjunctions of equality
predicates of the form field1 = field2, and field=const in where
conditions and on expressions.
All equality predicates of the form field1=field2 contained in a
conjunction are substituted for a sequence of items of this class.
An item of this class Item_equal(f1,f2,...fk) represents a
multiple equality f1=f2=...=fk.
If a conjunction contains predicates f1=f2 and f2=f3, a new item of
this class is created Item_equal(f1,f2,f3) representing the multiple
equality f1=f2=f3 that substitutes the above equality predicates in
the conjunction.
A conjunction of the predicates f2=f1 and f3=f1 and f3=f2 will be
substituted for the item representing the same multiple equality
f1=f2=f3.
An item Item_equal(f1,f2) can appear instead of a conjunction of
f2=f1 and f1=f2, or instead of just the predicate f1=f2.
An item of the class Item_equal inherits equalities from outer
conjunctive levels.
Suppose we have a where condition of the following form:
WHERE f1=f2 AND f3=f4 AND f3=f5 AND ... AND (...OR (f1=f3 AND ...)).
In this case:
f1=f2 will be substituted for Item_equal(f1,f2);
f3=f4 and f3=f5 will be substituted for Item_equal(f3,f4,f5);
f1=f3 will be substituted for Item_equal(f1,f2,f3,f4,f5);
An object of the class Item_equal can contain an optional constant
item c. Then it represents a multiple equality of the form
c=f1=...=fk.
Objects of the class Item_equal are used for the following:
1. An object Item_equal(t1.f1,...,tk.fk) allows us to consider any
pair of tables ti and tj as joined by an equi-condition.
Thus it provide us with additional access paths from table to table.
2. An object Item_equal(t1.f1,...,tk.fk) is applied to deduce new
SARGable predicates:
f1=...=fk AND P(fi) => f1=...=fk AND P(fi) AND P(fj).
It also can give us additional index scans and can allow us to
improve selectivity estimates.
3. An object Item_equal(t1.f1,...,tk.fk) is used to optimize the
selected execution plan for the query: if table ti is accessed
before the table tj then in any predicate P in the where condition
the occurrence of tj.fj is substituted for ti.fi. This can allow
an evaluation of the predicate at an earlier step.
When feature 1 is supported they say that join transitive closure
is employed.
When feature 2 is supported they say that search argument transitive
closure is employed.
Both features are usually supported by preprocessing original query and
adding additional predicates.
We do not just add predicates, we rather dynamically replace some
predicates that can not be used to access tables in the investigated
plan for those, obtained by substitution of some fields for equal fields,
that can be used.
Prepared Statements/Stored Procedures note: instances of class
Item_equal are created only at the time a PS/SP is executed and
are deleted in the end of execution. All changes made to these
objects need not be registered in the list of changes of the parse
tree and do not harm PS/SP re-execution.
Item equal objects are employed only at the optimize phase. Usually they are
not supposed to be evaluated. Yet in some cases we call the method val_int()
for them. We have to take care of restricting the predicate such an
object represents f1=f2= ...=fn to the projection of known fields fi1=...=fik.
*/
class Item_equal: public Item_bool_func
{
List<Item_field> fields; /* list of equal field items */
Item *const_item; /* optional constant item equal to fields items */
cmp_item *eval_item;
Arg_comparator cmp;
bool cond_false;
bool compare_as_dates;
public:
inline Item_equal()
: Item_bool_func(), const_item(0), eval_item(0), cond_false(0)
{ const_item_cache=0 ;}
Item_equal(Item_field *f1, Item_field *f2);
Item_equal(Item *c, Item_field *f);
Item_equal(Item_equal *item_equal);
inline Item* get_const() { return const_item; }
void compare_const(Item *c);
void add(Item *c, Item_field *f);
void add(Item *c);
void add(Item_field *f);
uint members();
bool contains(Field *field);
Item_field* get_first() { return fields.head(); }
void merge(Item_equal *item);
void update_const();
enum Functype functype() const { return MULT_EQUAL_FUNC; }
longlong val_int();
const char *func_name() const { return "multiple equal"; }
optimize_type select_optimize() const { return OPTIMIZE_EQUAL; }
void sort(Item_field_cmpfunc cmp, void *arg);
friend class Item_equal_iterator;
void fix_length_and_dec();
bool fix_fields(THD *thd, Item **ref);
void update_used_tables();
bool walk(Item_processor processor, bool walk_subquery, uchar *arg);
Item *transform(Item_transformer transformer, uchar *arg);
virtual void print(String *str, enum_query_type query_type);
CHARSET_INFO *compare_collation()
{ return fields.head()->collation.collation; }
};
class COND_EQUAL: public Sql_alloc
{
public:
uint max_members; /* max number of members the current level
list and all lower level lists */
COND_EQUAL *upper_levels; /* multiple equalities of upper and levels */
List<Item_equal> current_level; /* list of multiple equalities of
the current and level */
COND_EQUAL()
{
upper_levels= 0;
}
};
class Item_equal_iterator : public List_iterator_fast<Item_field>
{
public:
inline Item_equal_iterator(Item_equal &item_equal)
:List_iterator_fast<Item_field> (item_equal.fields)
{}
inline Item_field* operator++(int)
{
Item_field *item= (*(List_iterator_fast<Item_field> *) this)++;
return item;
}
inline void rewind(void)
{
List_iterator_fast<Item_field>::rewind();
}
};
class Item_cond_and :public Item_cond
{
public:
COND_EQUAL cond_equal; /* contains list of Item_equal objects for
the current and level and reference
to multiple equalities of upper and levels */
Item_cond_and() :Item_cond() {}
Item_cond_and(Item *i1,Item *i2) :Item_cond(i1,i2) {}
Item_cond_and(THD *thd, Item_cond_and *item) :Item_cond(thd, item) {}
Item_cond_and(List<Item> &list_arg): Item_cond(list_arg) {}
enum Functype functype() const { return COND_AND_FUNC; }
longlong val_int();
const char *func_name() const { return "and"; }
table_map not_null_tables() const
{ return abort_on_null ? not_null_tables_cache: and_tables_cache; }
Item* copy_andor_structure(THD *thd)
{
Item_cond_and *item;
if ((item= new Item_cond_and(thd, this)))
item->copy_andor_arguments(thd, this);
return item;
}
Item *neg_transformer(THD *thd);
};
inline bool is_cond_and(Item *item)
{
if (item->type() != Item::COND_ITEM)
return FALSE;
Item_cond *cond_item= (Item_cond*) item;
return (cond_item->functype() == Item_func::COND_AND_FUNC);
}
class Item_cond_or :public Item_cond
{
public:
Item_cond_or() :Item_cond() {}
Item_cond_or(Item *i1,Item *i2) :Item_cond(i1,i2) {}
Item_cond_or(THD *thd, Item_cond_or *item) :Item_cond(thd, item) {}
Item_cond_or(List<Item> &list_arg): Item_cond(list_arg) {}
enum Functype functype() const { return COND_OR_FUNC; }
longlong val_int();
const char *func_name() const { return "or"; }
table_map not_null_tables() const { return and_tables_cache; }
Item* copy_andor_structure(THD *thd)
{
Item_cond_or *item;
if ((item= new Item_cond_or(thd, this)))
item->copy_andor_arguments(thd, this);
return item;
}
Item *neg_transformer(THD *thd);
};
inline bool is_cond_or(Item *item)
{
if (item->type() != Item::COND_ITEM)
return FALSE;
Item_cond *cond_item= (Item_cond*) item;
return (cond_item->functype() == Item_func::COND_OR_FUNC);
}
/*
XOR is Item_cond, not an Item_int_func because we could like to
optimize (a XOR b) later on. It's low prio, though
*/
class Item_cond_xor :public Item_cond
{
public:
Item_cond_xor() :Item_cond() {}
Item_cond_xor(Item *i1,Item *i2) :Item_cond(i1,i2) {}
enum Functype functype() const { return COND_XOR_FUNC; }
/* TODO: remove the next line when implementing XOR optimization */
enum Type type() const { return FUNC_ITEM; }
longlong val_int();
const char *func_name() const { return "xor"; }
void top_level_item() {}
};
/* Some useful inline functions */
inline Item *and_conds(Item *a, Item *b)
{
if (!b) return a;
if (!a) return b;
return new Item_cond_and(a, b);
}
Item *and_expressions(Item *a, Item *b, Item **org_item);
bool get_mysql_time_from_str(THD *thd, String *str, timestamp_type warn_type,
const char *warn_name, MYSQL_TIME *l_time);
#endif /* ITEM_CMPFUNC_INCLUDED */
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