Commit 46d1b845 authored by Sergey Petrunya's avatar Sergey Petrunya

Better comments

parent deb26989
...@@ -7135,6 +7135,15 @@ double JOIN::get_examined_rows() ...@@ -7135,6 +7135,15 @@ double JOIN::get_examined_rows()
@param rem_tables The bitmap of tables to be joined later @param rem_tables The bitmap of tables to be joined later
@param keyparts The number of key parts to used when joining s @param keyparts The number of key parts to used when joining s
@param ref_keyuse_steps Array of references to keyuses employed to join s @param ref_keyuse_steps Array of references to keyuses employed to join s
@detail
Basic idea: if the WHERE clause has an equality in form
tbl.column= ...
then this condition will have selectivity 1/#distinct_values(tbl.column),
unless the equality was used by ref access. If the equality is used by ref
access, we only get rows that satisfy it, and so its selectivity=1.
*/ */
static static
...@@ -7302,13 +7311,14 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s, ...@@ -7302,13 +7311,14 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s,
{ {
uint16 ref_keyuse_steps[MAX_REF_PARTS - 1]; uint16 ref_keyuse_steps[MAX_REF_PARTS - 1];
TABLE *table= s->table; TABLE *table= s->table;
double sel= s->table->cond_selectivity; double sel;
POSITION *pos= &join->positions[idx]; POSITION *pos= &join->positions[idx];
uint keyparts= 0; uint keyparts= 0;
uint found_part_ref_or_null= 0; uint found_part_ref_or_null= 0;
if (pos->key != 0) if (pos->key != 0)
{ {
sel= s->table->cond_selectivity;
/* /*
A ref access or hash join is used for this table. ref access is created A ref access or hash join is used for this table. ref access is created
from from
...@@ -7324,17 +7334,19 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s, ...@@ -7324,17 +7334,19 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s,
then selectivity of this equality should not be counted in return value then selectivity of this equality should not be counted in return value
of this function. This function uses the value of of this function. This function uses the value of
table->cond_selectivity=selectivity(COND(tbl)) table->cond_selectivity=selectivity(COND(tbl)) (**)
as a starting point. This value includes selectivity of equality (*). We as a starting point. This value includes selectivity of equality (*). We
should somehow discount it. should somehow discount it.
Looking at calculate_cond_selectivity_for_table(), one can see that that Looking at calculate_cond_selectivity_for_table(), one can see that that
value is not necessarily a direct multiplicand in table->cond_selectivity the value is not necessarily a direct multiplicand in
table->cond_selectivity
There are three possible ways to discount There are three possible ways to discount
1. There is a range access on t.keypart{i}=const. 1. There is a potential range access on t.keypart{i}=const.
(an important special case: multi-keypart ref(const) access) (an important special case: the used ref access has a const prefix for
which a range estimate is available)
2. The field has a histogram. field[x]->cond_selectivity has the data. 2. The field has a histogram. field[x]->cond_selectivity has the data.
...@@ -7375,7 +7387,6 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s, ...@@ -7375,7 +7387,6 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s,
Go through the "keypart{N}=..." equalities and find those that were Go through the "keypart{N}=..." equalities and find those that were
already taken into account in table->cond_selectivity. already taken into account in table->cond_selectivity.
*/ */
//do
while (keyuse->table == table && keyuse->key == key) while (keyuse->table == table && keyuse->key == key)
{ {
if (!(keyuse->used_tables & (rem_tables | table->map))) if (!(keyuse->used_tables & (rem_tables | table->map)))
...@@ -7400,7 +7411,6 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s, ...@@ -7400,7 +7411,6 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s,
} }
} }
if (keyparts > keyuse->keypart) if (keyparts > keyuse->keypart)
{ {
/* Ok this is the keyuse that will be used for ref access */ /* Ok this is the keyuse that will be used for ref access */
...@@ -7449,29 +7459,40 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s, ...@@ -7449,29 +7459,40 @@ double table_cond_selectivity(JOIN *join, uint idx, JOIN_TAB *s,
} }
/* /*
If the field f from the table is equal to a field from one the Selectivity and multiple equalities. Consider an example:
earlier joined tables then the selectivity of the range conditions
over the field f must be discounted.
psergey: I think this is wrong. Example:
## no keys used
select * from t1, t2 where t1.col=t2.col and t2.col<5 select * from t1, t2 where t1.col=t2.col and t2.col<5
Suppose the join order is t1, t2. When equality propagation is used, we
get:
t1: t1.col<5
t2: t2.col<5 // not generated: AND t2.col=t1.col
if we use ref access on table t2, we will not get records for which
"t2.col<5"
when we get to table t2, we will not get records that have "t2.col < 5"
COND(t2) = "t2.col<5"
## a variant with key: ## a variant with key:
select * from t1, t2 where t1.col=t2.col and t2.col<5 and t2.key=t1.col2 select * from t1, t2 where t1.col=t2.col and t2.col<5 and t2.key=t1.col2
suppose the join order is t1, t2. Attached conditions: If the field f from the table is equal to a field from one the
earlier joined tables then the selectivity of the range conditions
over the field f must be discounted.
t1: t2.col<3
t2: [t2.col=t1.col] AND t2.col<3
Suppose, we're now looking at selectivity for table t2. Suppose, we're now looking at selectivity for table t2.
- in case t2 uses full table scan (or quick select): all selectivity is - in case t2 uses full table scan (or quick select): all selectivity is
already accounted for in matching_candidates_in_table(). [YES. CHECKED] already accounted for in matching_candidates_in_table().
- in case t2 uses ref access - in case t2 uses ref access
= if the equality is used for ref access, we have already = if the equality is used for ref access, we have already
discounted its selectivity above. discounted its selectivity above
(However, we have not discounted selectivity of the induced
equalities)
= if the equality is not used for ref access, we should still count its = if the equality is not used for ref access, we should still count its
selectivity. selectivity.
*/ */
......
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