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postgres/src/backend/optimizer/util/var.c

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Postgres95 1.01 Distribution - Virgin Sources
30 years ago
/*-------------------------------------------------------------------------
*
Change my-function-name-- to my_function_name, and optimizer renames.
27 years ago
* var.c
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
* Var node manipulation routines
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
*
Update copyrights in source tree to 2008.
18 years ago
* Portions Copyright (c) 1996-2008, PostgreSQL Global Development Group
Add: * Portions Copyright (c) 1996-2000, PostgreSQL, Inc to all files copyright Regents of Berkeley. Man, that's a lot of files.
26 years ago
* Portions Copyright (c) 1994, Regents of the University of California
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
*
*
* IDENTIFICATION
Move exprType(), exprTypmod(), expression_tree_walker(), and related routines into nodes/nodeFuncs, so as to reduce wanton cross-subsystem #includes inside the backend. There's probably more that should be done along this line, but this is a start anyway.
17 years ago
* $PostgreSQL: pgsql/src/backend/optimizer/util/var.c,v 1.77 2008/08/25 22:42:33 tgl Exp $
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
*
*-------------------------------------------------------------------------
*/
Cleanup Makefiles Add #include "postgres.h" and #include <sys/types.h>
29 years ago
#include "postgres.h"
Restructure some header files a bit, in particular heapam.h, by removing some unnecessary #include lines in it. Also, move some tuple routine prototypes and macros to htup.h, which allows removal of heapam.h inclusion from some .c files. For this to work, a new header file access/sysattr.h needed to be created, initially containing attribute numbers of system columns, for pg_dump usage. While at it, make contrib ltree, intarray and hstore header files more consistent with our header style.
18 years ago
#include "access/sysattr.h"
Move exprType(), exprTypmod(), expression_tree_walker(), and related routines into nodes/nodeFuncs, so as to reduce wanton cross-subsystem #includes inside the backend. There's probably more that should be done along this line, but this is a start anyway.
17 years ago
#include "nodes/nodeFuncs.h"
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
#include "optimizer/prep.h"
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
#include "optimizer/var.h"
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
#include "parser/parsetree.h"
Make flatten_join_alias_vars() do the right thing when expanding an alias referenced from a subquery. Per example from Stefanos Harhalakis.
23 years ago
#include "rewrite/rewriteManip.h"
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
typedef struct
{
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
Relids varnos;
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
int sublevels_up;
} pull_varnos_context;
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
typedef struct
{
int varno;
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
int varattno;
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
int sublevels_up;
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
} contain_var_reference_context;
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
typedef struct
{
int min_varlevel;
int sublevels_up;
Another pgindent run with updated typedefs.
22 years ago
} find_minimum_var_level_context;
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
Ye-old pgindent run. Same 4-space tabs.
26 years ago
typedef struct
{
Just about there on de-FastList-ification.
22 years ago
List *varlist;
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
bool includeUpperVars;
} pull_var_clause_context;
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
typedef struct
{
Remove planner's private fields from Query struct, and put them into a new PlannerInfo struct, which is passed around instead of the bare Query in all the planning code. This commit is essentially just a code-beautification exercise, but it does open the door to making larger changes to the planner data structures without having to muck with the widely-known Query struct.
21 years ago
PlannerInfo *root;
Allow merge and hash joins to occur on arbitrary expressions (anything not containing a volatile function), rather than only on 'Var = Var' clauses as before. This makes it practical to do flatten_join_alias_vars at the start of planning, which in turn eliminates a bunch of klugery inside the planner to deal with alias vars. As a free side effect, we now detect implied equality of non-Var expressions; for example in SELECT ... WHERE a.x = b.y and b.y = 42 we will deduce a.x = 42 and use that as a restriction qual on a. Also, we can remove the restriction introduced 12/5/02 to prevent pullup of subqueries whose targetlists contain sublinks. Still TODO: make statistical estimation routines in selfuncs.c and costsize.c smarter about expressions that are more complex than plain Vars. The need for this is considerably greater now that we have to be able to estimate the suitability of merge and hash join techniques on such expressions.
23 years ago
int sublevels_up;
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
} flatten_join_alias_vars_context;
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
static bool pull_varnos_walker(Node *node,
pgindent run. Make it all clean.
25 years ago
pull_varnos_context *context);
HOT updates. When we update a tuple without changing any of its indexed columns, and the new version can be stored on the same heap page, we no longer generate extra index entries for the new version. Instead, index searches follow the HOT-chain links to ensure they find the correct tuple version. In addition, this patch introduces the ability to "prune" dead tuples on a per-page basis, without having to do a complete VACUUM pass to recover space. VACUUM is still needed to clean up dead index entries, however. Pavan Deolasee, with help from a bunch of other people.
18 years ago
static bool pull_varattnos_walker(Node *node, Bitmapset **varattnos);
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
static bool contain_var_reference_walker(Node *node,
pgindent run on all C files. Java run to follow. initdb/regression tests pass.
24 years ago
contain_var_reference_context *context);
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
static bool contain_var_clause_walker(Node *node, void *context);
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
static bool contain_vars_of_level_walker(Node *node, int *sublevels_up);
static bool contain_vars_above_level_walker(Node *node, int *sublevels_up);
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
static bool find_minimum_var_level_walker(Node *node,
Another pgindent run with updated typedefs.
22 years ago
find_minimum_var_level_context *context);
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
static bool pull_var_clause_walker(Node *node,
Ye-old pgindent run. Same 4-space tabs.
26 years ago
pull_var_clause_context *context);
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
static Node *flatten_join_alias_vars_mutator(Node *node,
pgindent run.
23 years ago
flatten_join_alias_vars_context *context);
Remove planner's private fields from Query struct, and put them into a new PlannerInfo struct, which is passed around instead of the bare Query in all the planning code. This commit is essentially just a code-beautification exercise, but it does open the door to making larger changes to the planner data structures without having to muck with the widely-known Query struct.
21 years ago
static Relids alias_relid_set(PlannerInfo *root, Relids relids);
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
/*
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
* pull_varnos
* Create a set of all the distinct varnos present in a parsetree.
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
* Only varnos that reference level-zero rtable entries are considered.
*
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
* NOTE: this is used on not-yet-planned expressions. It may therefore find
* bare SubLinks, and if so it needs to recurse into them to look for uplevel
pgindent run on all C files. Java run to follow. initdb/regression tests pass.
24 years ago
* references to the desired rtable level! But when we find a completed
Clean up plantree representation of SubPlan-s --- SubLink does not appear in the planned representation of a subplan at all any more, only SubPlan. This means subselect.c doesn't scribble on its input anymore, which seems like a good thing; and there are no longer three different possible interpretations of a SubLink. Simplify node naming and improve comments in primnodes.h. No change to stored rules, though.
23 years ago
* SubPlan, we only need to look at the parameters passed to the subplan.
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
*/
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
Relids
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
pull_varnos(Node *node)
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
{
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
pull_varnos_context context;
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
context.varnos = NULL;
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
context.sublevels_up = 0;
/*
Standard pgindent run for 8.1.
20 years ago
* Must be prepared to start with a Query or a bare expression tree; if
* it's a Query, we don't want to increment sublevels_up.
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
*/
Adjust API of expression_tree_mutator and query_tree_mutator to simplify callers. It turns out the common case is that the caller does want to recurse into sub-queries, so push support for that into these subroutines.
23 years ago
query_or_expression_tree_walker(node,
pull_varnos_walker,
(void *) &context,
0);
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
return context.varnos;
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
}
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
static bool
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
pull_varnos_walker(Node *node, pull_varnos_context *context)
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
{
if (node == NULL)
return false;
if (IsA(node, Var))
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
{
Ye-old pgindent run. Same 4-space tabs.
26 years ago
Var *var = (Var *) node;
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
if (var->varlevelsup == context->sublevels_up)
context->varnos = bms_add_member(context->varnos, var->varno);
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
return false;
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
}
Support UPDATE/DELETE WHERE CURRENT OF cursor_name, per SQL standard. Along the way, allow FOR UPDATE in non-WITH-HOLD cursors; there may once have been a reason to disallow that, but it seems to work now, and it's really rather necessary if you want to select a row via a cursor and then update it in a concurrent-safe fashion. Original patch by Arul Shaji, rather heavily editorialized by Tom Lane.
19 years ago
if (IsA(node, CurrentOfExpr))
{
CurrentOfExpr *cexpr = (CurrentOfExpr *) node;
if (context->sublevels_up == 0)
context->varnos = bms_add_member(context->varnos, cexpr->cvarno);
return false;
}
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
if (IsA(node, Query))
{
Reimplementation of UNION/INTERSECT/EXCEPT. INTERSECT/EXCEPT now meet the SQL92 semantics, including support for ALL option. All three can be used in subqueries and views. DISTINCT and ORDER BY work now in views, too. This rewrite fixes many problems with cross-datatype UNIONs and INSERT/SELECT where the SELECT yields different datatypes than the INSERT needs. I did that by making UNION subqueries and SELECT in INSERT be treated like subselects-in-FROM, thereby allowing an extra level of targetlist where the datatype conversions can be inserted safely. INITDB NEEDED!
25 years ago
/* Recurse into RTE subquery or not-yet-planned sublink subquery */
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
bool result;
context->sublevels_up++;
result = query_tree_walker((Query *) node, pull_varnos_walker,
Tweak querytree-dependency-extraction code so that columns of tables that are explicitly JOINed are not considered dependencies unless they are actually used in the query: mere presence in the joinaliasvars list of a JOIN RTE doesn't count as being used. The patch touches a number of files because I needed to generalize the API of query_tree_walker to support an additional flag bit, but the changes are otherwise quite small.
23 years ago
(void *) context, 0);
First cut at full support for OUTER JOINs. There are still a few loose ends to clean up (see my message of same date to pghackers), but mostly it works. INITDB REQUIRED!
25 years ago
context->sublevels_up--;
return result;
}
return expression_tree_walker(node, pull_varnos_walker,
(void *) context);
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
}
HOT updates. When we update a tuple without changing any of its indexed columns, and the new version can be stored on the same heap page, we no longer generate extra index entries for the new version. Instead, index searches follow the HOT-chain links to ensure they find the correct tuple version. In addition, this patch introduces the ability to "prune" dead tuples on a per-page basis, without having to do a complete VACUUM pass to recover space. VACUUM is still needed to clean up dead index entries, however. Pavan Deolasee, with help from a bunch of other people.
18 years ago
/*
* pull_varattnos
* Find all the distinct attribute numbers present in an expression tree,
* and add them to the initial contents of *varattnos.
* Only Vars that reference RTE 1 of rtable level zero are considered.
*
* Attribute numbers are offset by FirstLowInvalidHeapAttributeNumber so that
* we can include system attributes (e.g., OID) in the bitmap representation.
*
* Currently, this does not support subqueries nor expressions containing
* references to multiple tables; not needed since it's only applied to
* index expressions and predicates.
*/
void
pull_varattnos(Node *node, Bitmapset **varattnos)
{
(void) pull_varattnos_walker(node, varattnos);
}
static bool
pull_varattnos_walker(Node *node, Bitmapset **varattnos)
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
Var *var = (Var *) node;
Assert(var->varno == 1);
*varattnos = bms_add_member(*varattnos,
pgindent run for 8.3.
18 years ago
var->varattno - FirstLowInvalidHeapAttributeNumber);
HOT updates. When we update a tuple without changing any of its indexed columns, and the new version can be stored on the same heap page, we no longer generate extra index entries for the new version. Instead, index searches follow the HOT-chain links to ensure they find the correct tuple version. In addition, this patch introduces the ability to "prune" dead tuples on a per-page basis, without having to do a complete VACUUM pass to recover space. VACUUM is still needed to clean up dead index entries, however. Pavan Deolasee, with help from a bunch of other people.
18 years ago
return false;
}
/* Should not find a subquery or subplan */
Assert(!IsA(node, Query));
Arrange to convert EXISTS subqueries that are equivalent to hashable IN subqueries into the same thing you'd have gotten from IN (except always with unknownEqFalse = true, so as to get the proper semantics for an EXISTS). I believe this fixes the last case within CVS HEAD in which an EXISTS could give worse performance than an equivalent IN subquery. The tricky part of this is that if the upper query probes the EXISTS for only a few rows, the hashing implementation can actually be worse than the default, and therefore we need to make a cost-based decision about which way to use. But at the time when the planner generates plans for subqueries, it doesn't really know how many times the subquery will be executed. The least invasive solution seems to be to generate both plans and postpone the choice until execution. Therefore, in a query that has been optimized this way, EXPLAIN will show two subplans for the EXISTS, of which only one will actually get executed. There is a lot more that could be done based on this infrastructure: in particular it's interesting to consider switching to the hash plan if we start out using the non-hashed plan but find a lot more upper rows going by than we expected. I have therefore left some minor inefficiencies in place, such as initializing both subplans even though we will currently only use one.
17 years ago
Assert(!IsA(node, SubPlan));
HOT updates. When we update a tuple without changing any of its indexed columns, and the new version can be stored on the same heap page, we no longer generate extra index entries for the new version. Instead, index searches follow the HOT-chain links to ensure they find the correct tuple version. In addition, this patch introduces the ability to "prune" dead tuples on a per-page basis, without having to do a complete VACUUM pass to recover space. VACUUM is still needed to clean up dead index entries, however. Pavan Deolasee, with help from a bunch of other people.
18 years ago
return expression_tree_walker(node, pull_varattnos_walker,
(void *) varattnos);
}
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
/*
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
* contain_var_reference
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
*
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
* Detect whether a parsetree contains any references to a specified
* attribute of a specified rtable entry.
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
*
* NOTE: this is used on not-yet-planned expressions. It may therefore find
* bare SubLinks, and if so it needs to recurse into them to look for uplevel
pgindent run on all C files. Java run to follow. initdb/regression tests pass.
24 years ago
* references to the desired rtable entry! But when we find a completed
Clean up plantree representation of SubPlan-s --- SubLink does not appear in the planned representation of a subplan at all any more, only SubPlan. This means subselect.c doesn't scribble on its input anymore, which seems like a good thing; and there are no longer three different possible interpretations of a SubLink. Simplify node naming and improve comments in primnodes.h. No change to stored rules, though.
23 years ago
* SubPlan, we only need to look at the parameters passed to the subplan.
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
*/
bool
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
contain_var_reference(Node *node, int varno, int varattno, int levelsup)
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
{
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
contain_var_reference_context context;
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
context.varno = varno;
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
context.varattno = varattno;
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
context.sublevels_up = levelsup;
/*
Standard pgindent run for 8.1.
20 years ago
* Must be prepared to start with a Query or a bare expression tree; if
* it's a Query, we don't want to increment sublevels_up.
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
*/
Adjust API of expression_tree_mutator and query_tree_mutator to simplify callers. It turns out the common case is that the caller does want to recurse into sub-queries, so push support for that into these subroutines.
23 years ago
return query_or_expression_tree_walker(node,
contain_var_reference_walker,
(void *) &context,
0);
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
}
static bool
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
contain_var_reference_walker(Node *node,
contain_var_reference_context *context)
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
Var *var = (Var *) node;
if (var->varno == context->varno &&
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
var->varattno == context->varattno &&
var->varlevelsup == context->sublevels_up)
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
return true;
return false;
}
if (IsA(node, Query))
{
/* Recurse into RTE subquery or not-yet-planned sublink subquery */
bool result;
context->sublevels_up++;
result = query_tree_walker((Query *) node,
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
contain_var_reference_walker,
Tweak querytree-dependency-extraction code so that columns of tables that are explicitly JOINed are not considered dependencies unless they are actually used in the query: mere presence in the joinaliasvars list of a JOIN RTE doesn't count as being used. The patch touches a number of files because I needed to generalize the API of query_tree_walker to support an additional flag bit, but the changes are otherwise quite small.
23 years ago
(void *) context, 0);
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
context->sublevels_up--;
return result;
}
First cut at making indexscan cost estimates depend on correlation between index order and table order.
25 years ago
return expression_tree_walker(node, contain_var_reference_walker,
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
(void *) context);
}
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
/*
Change my-function-name-- to my_function_name, and optimizer renames.
27 years ago
* contain_var_clause
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
* Recursively scan a clause to discover whether it contains any Var nodes
* (of the current query level).
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
*
* Returns true if any varnode found.
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
*
* Does not examine subqueries, therefore must only be used after reduction
* of sublinks to subplans!
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
*/
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
bool
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
contain_var_clause(Node *node)
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
{
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
return contain_var_clause_walker(node, NULL);
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
}
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
static bool
contain_var_clause_walker(Node *node, void *context)
{
if (node == NULL)
return false;
if (IsA(node, Var))
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
{
if (((Var *) node)->varlevelsup == 0)
Standard pgindent run for 8.1.
20 years ago
return true; /* abort the tree traversal and return true */
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
return false;
}
Support UPDATE/DELETE WHERE CURRENT OF cursor_name, per SQL standard. Along the way, allow FOR UPDATE in non-WITH-HOLD cursors; there may once have been a reason to disallow that, but it seems to work now, and it's really rather necessary if you want to select a row via a cursor and then update it in a concurrent-safe fashion. Original patch by Arul Shaji, rather heavily editorialized by Tom Lane.
19 years ago
if (IsA(node, CurrentOfExpr))
return true;
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
return expression_tree_walker(node, contain_var_clause_walker, context);
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
}
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
/*
* contain_vars_of_level
* Recursively scan a clause to discover whether it contains any Var nodes
* of the specified query level.
*
* Returns true if any such Var found.
*
pgindent run.
22 years ago
* Will recurse into sublinks. Also, may be invoked directly on a Query.
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
*/
bool
contain_vars_of_level(Node *node, int levelsup)
{
pgindent run.
22 years ago
int sublevels_up = levelsup;
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
return query_or_expression_tree_walker(node,
contain_vars_of_level_walker,
(void *) &sublevels_up,
0);
}
static bool
contain_vars_of_level_walker(Node *node, int *sublevels_up)
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
if (((Var *) node)->varlevelsup == *sublevels_up)
return true; /* abort tree traversal and return true */
Support UPDATE/DELETE WHERE CURRENT OF cursor_name, per SQL standard. Along the way, allow FOR UPDATE in non-WITH-HOLD cursors; there may once have been a reason to disallow that, but it seems to work now, and it's really rather necessary if you want to select a row via a cursor and then update it in a concurrent-safe fashion. Original patch by Arul Shaji, rather heavily editorialized by Tom Lane.
19 years ago
return false;
}
if (IsA(node, CurrentOfExpr))
{
if (*sublevels_up == 0)
return true;
return false;
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
}
if (IsA(node, Query))
{
/* Recurse into subselects */
bool result;
(*sublevels_up)++;
result = query_tree_walker((Query *) node,
contain_vars_of_level_walker,
(void *) sublevels_up,
0);
(*sublevels_up)--;
return result;
}
return expression_tree_walker(node,
contain_vars_of_level_walker,
(void *) sublevels_up);
}
/*
* contain_vars_above_level
* Recursively scan a clause to discover whether it contains any Var nodes
pgindent run.
22 years ago
* above the specified query level. (For example, pass zero to detect
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
* all nonlocal Vars.)
*
* Returns true if any such Var found.
*
pgindent run.
22 years ago
* Will recurse into sublinks. Also, may be invoked directly on a Query.
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
*/
bool
contain_vars_above_level(Node *node, int levelsup)
{
pgindent run.
22 years ago
int sublevels_up = levelsup;
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
return query_or_expression_tree_walker(node,
Standard pgindent run for 8.1.
20 years ago
contain_vars_above_level_walker,
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
(void *) &sublevels_up,
0);
}
static bool
contain_vars_above_level_walker(Node *node, int *sublevels_up)
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
if (((Var *) node)->varlevelsup > *sublevels_up)
return true; /* abort tree traversal and return true */
}
if (IsA(node, Query))
{
/* Recurse into subselects */
bool result;
(*sublevels_up)++;
result = query_tree_walker((Query *) node,
contain_vars_above_level_walker,
(void *) sublevels_up,
0);
(*sublevels_up)--;
return result;
}
return expression_tree_walker(node,
contain_vars_above_level_walker,
(void *) sublevels_up);
}
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
/*
* find_minimum_var_level
* Recursively scan a clause to find the lowest variable level it
* contains --- for example, zero is returned if there are any local
* variables, one if there are no local variables but there are
* one-level-up outer references, etc. Subqueries are scanned to see
* if they possess relevant outer references. (But any local variables
* within subqueries are not relevant.)
*
* -1 is returned if the clause has no variables at all.
*
pgindent run.
22 years ago
* Will recurse into sublinks. Also, may be invoked directly on a Query.
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
*/
int
find_minimum_var_level(Node *node)
{
find_minimum_var_level_context context;
context.min_varlevel = -1; /* signifies nothing found yet */
context.sublevels_up = 0;
(void) query_or_expression_tree_walker(node,
find_minimum_var_level_walker,
(void *) &context,
0);
return context.min_varlevel;
}
static bool
find_minimum_var_level_walker(Node *node,
Another pgindent run with updated typedefs.
22 years ago
find_minimum_var_level_context *context)
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
pgindent run.
22 years ago
int varlevelsup = ((Var *) node)->varlevelsup;
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
/* convert levelsup to frame of reference of original query */
varlevelsup -= context->sublevels_up;
Support UPDATE/DELETE WHERE CURRENT OF cursor_name, per SQL standard. Along the way, allow FOR UPDATE in non-WITH-HOLD cursors; there may once have been a reason to disallow that, but it seems to work now, and it's really rather necessary if you want to select a row via a cursor and then update it in a concurrent-safe fashion. Original patch by Arul Shaji, rather heavily editorialized by Tom Lane.
19 years ago
/* ignore local vars of subqueries */
if (varlevelsup >= 0)
{
if (context->min_varlevel < 0 ||
context->min_varlevel > varlevelsup)
{
context->min_varlevel = varlevelsup;
/*
* As soon as we find a local variable, we can abort the tree
* traversal, since min_varlevel is then certainly 0.
*/
if (varlevelsup == 0)
return true;
}
}
}
if (IsA(node, CurrentOfExpr))
{
int varlevelsup = 0;
/* convert levelsup to frame of reference of original query */
varlevelsup -= context->sublevels_up;
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
/* ignore local vars of subqueries */
if (varlevelsup >= 0)
{
if (context->min_varlevel < 0 ||
context->min_varlevel > varlevelsup)
{
context->min_varlevel = varlevelsup;
pgindent run.
22 years ago
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
/*
Standard pgindent run for 8.1.
20 years ago
* As soon as we find a local variable, we can abort the tree
* traversal, since min_varlevel is then certainly 0.
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
*/
if (varlevelsup == 0)
return true;
}
}
}
pgindent run.
22 years ago
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
/*
Standard pgindent run for 8.1.
20 years ago
* An Aggref must be treated like a Var of its level. Normally we'd get
* the same result from looking at the Vars in the aggregate's argument,
* but this fails in the case of a Var-less aggregate call (COUNT(*)).
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
*/
if (IsA(node, Aggref))
{
pgindent run.
22 years ago
int agglevelsup = ((Aggref *) node)->agglevelsup;
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
/* convert levelsup to frame of reference of original query */
agglevelsup -= context->sublevels_up;
/* ignore local aggs of subqueries */
if (agglevelsup >= 0)
{
if (context->min_varlevel < 0 ||
context->min_varlevel > agglevelsup)
{
context->min_varlevel = agglevelsup;
pgindent run.
22 years ago
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
/*
Standard pgindent run for 8.1.
20 years ago
* As soon as we find a local aggregate, we can abort the tree
* traversal, since min_varlevel is then certainly 0.
Implement outer-level aggregates to conform to the SQL spec, with extensions to support our historical behavior. An aggregate belongs to the closest query level of any of the variables in its argument, or the current query level if there are no variables (e.g., COUNT(*)). The implementation involves adding an agglevelsup field to Aggref, and treating outer aggregates like outer variables at planning time.
23 years ago
*/
if (agglevelsup == 0)
return true;
}
}
}
if (IsA(node, Query))
{
/* Recurse into subselects */
bool result;
context->sublevels_up++;
result = query_tree_walker((Query *) node,
find_minimum_var_level_walker,
(void *) context,
0);
context->sublevels_up--;
return result;
}
return expression_tree_walker(node,
find_minimum_var_level_walker,
(void *) context);
}
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
/*
Change my-function-name-- to my_function_name, and optimizer renames.
27 years ago
* pull_var_clause
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
* Recursively pulls all var nodes from an expression clause.
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
*
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
* Upper-level vars (with varlevelsup > 0) are included only
Ye-old pgindent run. Same 4-space tabs.
26 years ago
* if includeUpperVars is true. Most callers probably want
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
* to ignore upper-level vars.
*
Revise union_planner and associated routines to clean up breakage from EXCEPT/HAVING patch. Cases involving nontrivial GROUP BY expressions now work again. Also, the code is at least somewhat better documented...
27 years ago
* Returns list of varnodes found. Note the varnodes themselves are not
* copied, only referenced.
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
*
* Does not examine subqueries, therefore must only be used after reduction
* of sublinks to subplans!
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
*/
pgindent run before 6.3 release, with Thomas' requested changes.
28 years ago
List *
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
pull_var_clause(Node *node, bool includeUpperVars)
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
{
Ye-old pgindent run. Same 4-space tabs.
26 years ago
pull_var_clause_context context;
Massive commit to run PGINDENT on all *.c and *.h files.
28 years ago
Just about there on de-FastList-ification.
22 years ago
context.varlist = NIL;
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
context.includeUpperVars = includeUpperVars;
Make the world safe for passing whole rows of views to functions. This already worked fine for whole rows of tables, but not so well for views...
25 years ago
pull_var_clause_walker(node, &context);
Just about there on de-FastList-ification.
22 years ago
return context.varlist;
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
}
pgindent run over code.
27 years ago
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
static bool
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
pull_var_clause_walker(Node *node, pull_var_clause_context *context)
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
{
if (node == NULL)
return false;
if (IsA(node, Var))
Revise union_planner and associated routines to clean up breakage from EXCEPT/HAVING patch. Cases involving nontrivial GROUP BY expressions now work again. Also, the code is at least somewhat better documented...
27 years ago
{
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
if (((Var *) node)->varlevelsup == 0 || context->includeUpperVars)
Just about there on de-FastList-ification.
22 years ago
context->varlist = lappend(context->varlist, node);
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
return false;
Revise union_planner and associated routines to clean up breakage from EXCEPT/HAVING patch. Cases involving nontrivial GROUP BY expressions now work again. Also, the code is at least somewhat better documented...
27 years ago
}
Create a generic expression-tree-walker subroutine, which will gradually replace all of the boilerplate tree-walk-recursion code that currently exists in O(N) slightly different forms in N subroutines. I've had it with adding missing cases to these subroutines...
27 years ago
return expression_tree_walker(node, pull_var_clause_walker,
Clean up some mistakes in handling of uplevel Vars in planner. Most parts of the planner should ignore, or indeed never even see, uplevel Vars because they will be or have been replaced by Params. There were a couple of places that got it wrong though, probably my fault from recent changes...
26 years ago
(void *) context);
Postgres95 1.01 Distribution - Virgin Sources
30 years ago
}
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
/*
* flatten_join_alias_vars
Second try at fixing join alias variables. Instead of attaching miscellaneous lists to join RTEs, attach a list of Vars and COALESCE expressions that will replace the join's alias variables during planning. This simplifies flatten_join_alias_vars while still making it easy to fix up varno references when transforming the query tree. Add regression test cases for interactions of subqueries with outer joins.
24 years ago
* Replace Vars that reference JOIN outputs with references to the original
* relation variables instead. This allows quals involving such vars to be
Pgindent run for 8.0.
21 years ago
* pushed down. Whole-row Vars that reference JOIN relations are expanded
Promote row expressions to full-fledged citizens of the expression syntax, rather than allowing them only in a few special cases as before. In particular you can now pass a ROW() construct to a function that accepts a rowtype parameter. Internal generation of RowExprs fixes a number of corner cases that used to not work very well, such as referencing the whole-row result of a JOIN or subquery. This represents a further step in the work I started a month or so back to make rowtype values into first-class citizens.
22 years ago
* into RowExpr constructs that name the individual output Vars. This
* is necessary since we will not scan the JOIN as a base relation, which
* is the only way that the executor can directly handle whole-row Vars.
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
*
Allow merge and hash joins to occur on arbitrary expressions (anything not containing a volatile function), rather than only on 'Var = Var' clauses as before. This makes it practical to do flatten_join_alias_vars at the start of planning, which in turn eliminates a bunch of klugery inside the planner to deal with alias vars. As a free side effect, we now detect implied equality of non-Var expressions; for example in SELECT ... WHERE a.x = b.y and b.y = 42 we will deduce a.x = 42 and use that as a restriction qual on a. Also, we can remove the restriction introduced 12/5/02 to prevent pullup of subqueries whose targetlists contain sublinks. Still TODO: make statistical estimation routines in selfuncs.c and costsize.c smarter about expressions that are more complex than plain Vars. The need for this is considerably greater now that we have to be able to estimate the suitability of merge and hash join techniques on such expressions.
23 years ago
* NOTE: this is used on not-yet-planned expressions. We do not expect it
* to be applied directly to a Query node.
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
*/
Node *
Remove planner's private fields from Query struct, and put them into a new PlannerInfo struct, which is passed around instead of the bare Query in all the planning code. This commit is essentially just a code-beautification exercise, but it does open the door to making larger changes to the planner data structures without having to muck with the widely-known Query struct.
21 years ago
flatten_join_alias_vars(PlannerInfo *root, Node *node)
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
{
flatten_join_alias_vars_context context;
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
context.root = root;
Allow merge and hash joins to occur on arbitrary expressions (anything not containing a volatile function), rather than only on 'Var = Var' clauses as before. This makes it practical to do flatten_join_alias_vars at the start of planning, which in turn eliminates a bunch of klugery inside the planner to deal with alias vars. As a free side effect, we now detect implied equality of non-Var expressions; for example in SELECT ... WHERE a.x = b.y and b.y = 42 we will deduce a.x = 42 and use that as a restriction qual on a. Also, we can remove the restriction introduced 12/5/02 to prevent pullup of subqueries whose targetlists contain sublinks. Still TODO: make statistical estimation routines in selfuncs.c and costsize.c smarter about expressions that are more complex than plain Vars. The need for this is considerably greater now that we have to be able to estimate the suitability of merge and hash join techniques on such expressions.
23 years ago
context.sublevels_up = 0;
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
return flatten_join_alias_vars_mutator(node, &context);
}
static Node *
flatten_join_alias_vars_mutator(Node *node,
flatten_join_alias_vars_context *context)
{
if (node == NULL)
return NULL;
if (IsA(node, Var))
{
pgindent run.
23 years ago
Var *var = (Var *) node;
Second try at fixing join alias variables. Instead of attaching miscellaneous lists to join RTEs, attach a list of Vars and COALESCE expressions that will replace the join's alias variables during planning. This simplifies flatten_join_alias_vars while still making it easy to fix up varno references when transforming the query tree. Add regression test cases for interactions of subqueries with outer joins.
24 years ago
RangeTblEntry *rte;
pgindent run.
23 years ago
Node *newvar;
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
Make flatten_join_alias_vars() do the right thing when expanding an alias referenced from a subquery. Per example from Stefanos Harhalakis.
23 years ago
/* No change unless Var belongs to a JOIN of the target level */
Allow merge and hash joins to occur on arbitrary expressions (anything not containing a volatile function), rather than only on 'Var = Var' clauses as before. This makes it practical to do flatten_join_alias_vars at the start of planning, which in turn eliminates a bunch of klugery inside the planner to deal with alias vars. As a free side effect, we now detect implied equality of non-Var expressions; for example in SELECT ... WHERE a.x = b.y and b.y = 42 we will deduce a.x = 42 and use that as a restriction qual on a. Also, we can remove the restriction introduced 12/5/02 to prevent pullup of subqueries whose targetlists contain sublinks. Still TODO: make statistical estimation routines in selfuncs.c and costsize.c smarter about expressions that are more complex than plain Vars. The need for this is considerably greater now that we have to be able to estimate the suitability of merge and hash join techniques on such expressions.
23 years ago
if (var->varlevelsup != context->sublevels_up)
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
return node; /* no need to copy, really */
Remove planner's private fields from Query struct, and put them into a new PlannerInfo struct, which is passed around instead of the bare Query in all the planning code. This commit is essentially just a code-beautification exercise, but it does open the door to making larger changes to the planner data structures without having to muck with the widely-known Query struct.
21 years ago
rte = rt_fetch(var->varno, context->root->parse->rtable);
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
if (rte->rtekind != RTE_JOIN)
Second try at fixing join alias variables. Instead of attaching miscellaneous lists to join RTEs, attach a list of Vars and COALESCE expressions that will replace the join's alias variables during planning. This simplifies flatten_join_alias_vars while still making it easy to fix up varno references when transforming the query tree. Add regression test cases for interactions of subqueries with outer joins.
24 years ago
return node;
Promote row expressions to full-fledged citizens of the expression syntax, rather than allowing them only in a few special cases as before. In particular you can now pass a ROW() construct to a function that accepts a rowtype parameter. Internal generation of RowExprs fixes a number of corner cases that used to not work very well, such as referencing the whole-row result of a JOIN or subquery. This represents a further step in the work I started a month or so back to make rowtype values into first-class citizens.
22 years ago
if (var->varattno == InvalidAttrNumber)
{
/* Must expand whole-row reference */
Pgindent run for 8.0.
21 years ago
RowExpr *rowexpr;
List *fields = NIL;
Repair some issues with column aliases and RowExpr construction in the presence of dropped columns. Document the already-presumed fact that eref aliases in relation RTEs are supposed to have entries for dropped columns; cause the user alias structs to have such entries too, so that there's always a one-to-one mapping to the underlying physical attnums. Adjust expandRTE() and related code to handle the case where a column that is part of a JOIN has been dropped. Generalize expandRTE()'s API so that it can be used in a couple of places that formerly rolled their own implementation of the same logic. Fix ruleutils.c to suppress display of aliases for columns that were dropped since the rule was made.
21 years ago
AttrNumber attnum;
Pgindent run for 8.0.
21 years ago
ListCell *l;
Promote row expressions to full-fledged citizens of the expression syntax, rather than allowing them only in a few special cases as before. In particular you can now pass a ROW() construct to a function that accepts a rowtype parameter. Internal generation of RowExprs fixes a number of corner cases that used to not work very well, such as referencing the whole-row result of a JOIN or subquery. This represents a further step in the work I started a month or so back to make rowtype values into first-class citizens.
22 years ago
Repair some issues with column aliases and RowExpr construction in the presence of dropped columns. Document the already-presumed fact that eref aliases in relation RTEs are supposed to have entries for dropped columns; cause the user alias structs to have such entries too, so that there's always a one-to-one mapping to the underlying physical attnums. Adjust expandRTE() and related code to handle the case where a column that is part of a JOIN has been dropped. Generalize expandRTE()'s API so that it can be used in a couple of places that formerly rolled their own implementation of the same logic. Fix ruleutils.c to suppress display of aliases for columns that were dropped since the rule was made.
21 years ago
attnum = 0;
Promote row expressions to full-fledged citizens of the expression syntax, rather than allowing them only in a few special cases as before. In particular you can now pass a ROW() construct to a function that accepts a rowtype parameter. Internal generation of RowExprs fixes a number of corner cases that used to not work very well, such as referencing the whole-row result of a JOIN or subquery. This represents a further step in the work I started a month or so back to make rowtype values into first-class citizens.
22 years ago
foreach(l, rte->joinaliasvars)
{
newvar = (Node *) lfirst(l);
Repair some issues with column aliases and RowExpr construction in the presence of dropped columns. Document the already-presumed fact that eref aliases in relation RTEs are supposed to have entries for dropped columns; cause the user alias structs to have such entries too, so that there's always a one-to-one mapping to the underlying physical attnums. Adjust expandRTE() and related code to handle the case where a column that is part of a JOIN has been dropped. Generalize expandRTE()'s API so that it can be used in a couple of places that formerly rolled their own implementation of the same logic. Fix ruleutils.c to suppress display of aliases for columns that were dropped since the rule was made.
21 years ago
attnum++;
/* Ignore dropped columns */
Revise handling of dropped columns in JOIN alias lists to avoid a performance problem pointed out by phil@vodafone: to wit, we were spending O(N^2) time to check dropped-ness in an N-deep join tree, even in the case where the tree was freshly constructed and couldn't possibly mention any dropped columns. Instead of recursing in get_rte_attribute_is_dropped(), change the data structure definition: the joinaliasvars list of a JOIN RTE must have a NULL Const instead of a Var at any position that references a now-dropped column. This costs nothing during normal parse-rewrite-plan path, and instead we have a linear-time update to make when loading a stored rule that might contain now-dropped columns. While at it, move the responsibility for acquring locks on relations referenced by rules into this separate function (which I therefore chose to call AcquireRewriteLocks). This saves effort --- namely, duplicated lock grabs in parser and rewriter --- in the normal path at a cost of one extra non-locked heap_open() in the stored-rule path; seems a good tradeoff. A fringe benefit is that it is now *much* clearer that we acquire lock on relations referenced in rules before we make any rewriter decisions based on their properties. (I don't know of any bug of that ilk, but it wasn't exactly clear before.)
21 years ago
if (IsA(newvar, Const))
Repair some issues with column aliases and RowExpr construction in the presence of dropped columns. Document the already-presumed fact that eref aliases in relation RTEs are supposed to have entries for dropped columns; cause the user alias structs to have such entries too, so that there's always a one-to-one mapping to the underlying physical attnums. Adjust expandRTE() and related code to handle the case where a column that is part of a JOIN has been dropped. Generalize expandRTE()'s API so that it can be used in a couple of places that formerly rolled their own implementation of the same logic. Fix ruleutils.c to suppress display of aliases for columns that were dropped since the rule was made.
21 years ago
continue;
Pgindent run for 8.0.
21 years ago
Promote row expressions to full-fledged citizens of the expression syntax, rather than allowing them only in a few special cases as before. In particular you can now pass a ROW() construct to a function that accepts a rowtype parameter. Internal generation of RowExprs fixes a number of corner cases that used to not work very well, such as referencing the whole-row result of a JOIN or subquery. This represents a further step in the work I started a month or so back to make rowtype values into first-class citizens.
22 years ago
/*
* If we are expanding an alias carried down from an upper
* query, must adjust its varlevelsup fields.
*/
if (context->sublevels_up != 0)
{
newvar = copyObject(newvar);
IncrementVarSublevelsUp(newvar, context->sublevels_up, 0);
}
/* Recurse in case join input is itself a join */
newvar = flatten_join_alias_vars_mutator(newvar, context);
fields = lappend(fields, newvar);
}
rowexpr = makeNode(RowExpr);
rowexpr->args = fields;
rowexpr->row_typeid = var->vartype;
rowexpr->row_format = COERCE_IMPLICIT_CAST;
return (Node *) rowexpr;
}
/* Expand join alias reference */
Second try at fixing join alias variables. Instead of attaching miscellaneous lists to join RTEs, attach a list of Vars and COALESCE expressions that will replace the join's alias variables during planning. This simplifies flatten_join_alias_vars while still making it easy to fix up varno references when transforming the query tree. Add regression test cases for interactions of subqueries with outer joins.
24 years ago
Assert(var->varattno > 0);
Use the new List API function names throughout the backend, and disable the list compatibility API by default. While doing this, I decided to keep the llast() macro around and introduce llast_int() and llast_oid() variants.
22 years ago
newvar = (Node *) list_nth(rte->joinaliasvars, var->varattno - 1);
pgindent run.
22 years ago
Make flatten_join_alias_vars() do the right thing when expanding an alias referenced from a subquery. Per example from Stefanos Harhalakis.
23 years ago
/*
Standard pgindent run for 8.1.
20 years ago
* If we are expanding an alias carried down from an upper query, must
* adjust its varlevelsup fields.
Make flatten_join_alias_vars() do the right thing when expanding an alias referenced from a subquery. Per example from Stefanos Harhalakis.
23 years ago
*/
if (context->sublevels_up != 0)
{
newvar = copyObject(newvar);
IncrementVarSublevelsUp(newvar, context->sublevels_up, 0);
}
/* Recurse in case join input is itself a join */
Allow merge and hash joins to occur on arbitrary expressions (anything not containing a volatile function), rather than only on 'Var = Var' clauses as before. This makes it practical to do flatten_join_alias_vars at the start of planning, which in turn eliminates a bunch of klugery inside the planner to deal with alias vars. As a free side effect, we now detect implied equality of non-Var expressions; for example in SELECT ... WHERE a.x = b.y and b.y = 42 we will deduce a.x = 42 and use that as a restriction qual on a. Also, we can remove the restriction introduced 12/5/02 to prevent pullup of subqueries whose targetlists contain sublinks. Still TODO: make statistical estimation routines in selfuncs.c and costsize.c smarter about expressions that are more complex than plain Vars. The need for this is considerably greater now that we have to be able to estimate the suitability of merge and hash join techniques on such expressions.
23 years ago
return flatten_join_alias_vars_mutator(newvar, context);
}
Implement SEMI and ANTI joins in the planner and executor. (Semijoins replace the old JOIN_IN code, but antijoins are new functionality.) Teach the planner to convert appropriate EXISTS and NOT EXISTS subqueries into semi and anti joins respectively. Also, LEFT JOINs with suitable upper-level IS NULL filters are recognized as being anti joins. Unify the InClauseInfo and OuterJoinInfo infrastructure into "SpecialJoinInfo". With that change, it becomes possible to associate a SpecialJoinInfo with every join attempt, which permits some cleanup of join selectivity estimation. That needs to be taken much further than this patch does, but the next step is to change the API for oprjoin selectivity functions, which seems like material for a separate patch. So for the moment the output size estimates for semi and especially anti joins are quite bogus.
17 years ago
if (IsA(node, FlattenedSubLink))
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
{
Implement SEMI and ANTI joins in the planner and executor. (Semijoins replace the old JOIN_IN code, but antijoins are new functionality.) Teach the planner to convert appropriate EXISTS and NOT EXISTS subqueries into semi and anti joins respectively. Also, LEFT JOINs with suitable upper-level IS NULL filters are recognized as being anti joins. Unify the InClauseInfo and OuterJoinInfo infrastructure into "SpecialJoinInfo". With that change, it becomes possible to associate a SpecialJoinInfo with every join attempt, which permits some cleanup of join selectivity estimation. That needs to be taken much further than this patch does, but the next step is to change the API for oprjoin selectivity functions, which seems like material for a separate patch. So for the moment the output size estimates for semi and especially anti joins are quite bogus.
17 years ago
/* Copy the FlattenedSubLink node with correct mutation of subnodes */
FlattenedSubLink *fslink;
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
Implement SEMI and ANTI joins in the planner and executor. (Semijoins replace the old JOIN_IN code, but antijoins are new functionality.) Teach the planner to convert appropriate EXISTS and NOT EXISTS subqueries into semi and anti joins respectively. Also, LEFT JOINs with suitable upper-level IS NULL filters are recognized as being anti joins. Unify the InClauseInfo and OuterJoinInfo infrastructure into "SpecialJoinInfo". With that change, it becomes possible to associate a SpecialJoinInfo with every join attempt, which permits some cleanup of join selectivity estimation. That needs to be taken much further than this patch does, but the next step is to change the API for oprjoin selectivity functions, which seems like material for a separate patch. So for the moment the output size estimates for semi and especially anti joins are quite bogus.
17 years ago
fslink = (FlattenedSubLink *) expression_tree_mutator(node,
Standard pgindent run for 8.1.
20 years ago
flatten_join_alias_vars_mutator,
Implement SEMI and ANTI joins in the planner and executor. (Semijoins replace the old JOIN_IN code, but antijoins are new functionality.) Teach the planner to convert appropriate EXISTS and NOT EXISTS subqueries into semi and anti joins respectively. Also, LEFT JOINs with suitable upper-level IS NULL filters are recognized as being anti joins. Unify the InClauseInfo and OuterJoinInfo infrastructure into "SpecialJoinInfo". With that change, it becomes possible to associate a SpecialJoinInfo with every join attempt, which permits some cleanup of join selectivity estimation. That needs to be taken much further than this patch does, but the next step is to change the API for oprjoin selectivity functions, which seems like material for a separate patch. So for the moment the output size estimates for semi and especially anti joins are quite bogus.
17 years ago
(void *) context);
/* now fix FlattenedSubLink's relid sets */
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
if (context->sublevels_up == 0)
{
Implement SEMI and ANTI joins in the planner and executor. (Semijoins replace the old JOIN_IN code, but antijoins are new functionality.) Teach the planner to convert appropriate EXISTS and NOT EXISTS subqueries into semi and anti joins respectively. Also, LEFT JOINs with suitable upper-level IS NULL filters are recognized as being anti joins. Unify the InClauseInfo and OuterJoinInfo infrastructure into "SpecialJoinInfo". With that change, it becomes possible to associate a SpecialJoinInfo with every join attempt, which permits some cleanup of join selectivity estimation. That needs to be taken much further than this patch does, but the next step is to change the API for oprjoin selectivity functions, which seems like material for a separate patch. So for the moment the output size estimates for semi and especially anti joins are quite bogus.
17 years ago
fslink->lefthand = alias_relid_set(context->root,
fslink->lefthand);
fslink->righthand = alias_relid_set(context->root,
fslink->righthand);
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
}
Implement SEMI and ANTI joins in the planner and executor. (Semijoins replace the old JOIN_IN code, but antijoins are new functionality.) Teach the planner to convert appropriate EXISTS and NOT EXISTS subqueries into semi and anti joins respectively. Also, LEFT JOINs with suitable upper-level IS NULL filters are recognized as being anti joins. Unify the InClauseInfo and OuterJoinInfo infrastructure into "SpecialJoinInfo". With that change, it becomes possible to associate a SpecialJoinInfo with every join attempt, which permits some cleanup of join selectivity estimation. That needs to be taken much further than this patch does, but the next step is to change the API for oprjoin selectivity functions, which seems like material for a separate patch. So for the moment the output size estimates for semi and especially anti joins are quite bogus.
17 years ago
return (Node *) fslink;
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
}
Ooops, didn't cut-and-paste quite enough code from ResolveNew; with result that flatten_join_alias_vars failed to descend into subselects.
23 years ago
Allow merge and hash joins to occur on arbitrary expressions (anything not containing a volatile function), rather than only on 'Var = Var' clauses as before. This makes it practical to do flatten_join_alias_vars at the start of planning, which in turn eliminates a bunch of klugery inside the planner to deal with alias vars. As a free side effect, we now detect implied equality of non-Var expressions; for example in SELECT ... WHERE a.x = b.y and b.y = 42 we will deduce a.x = 42 and use that as a restriction qual on a. Also, we can remove the restriction introduced 12/5/02 to prevent pullup of subqueries whose targetlists contain sublinks. Still TODO: make statistical estimation routines in selfuncs.c and costsize.c smarter about expressions that are more complex than plain Vars. The need for this is considerably greater now that we have to be able to estimate the suitability of merge and hash join techniques on such expressions.
23 years ago
if (IsA(node, Query))
{
/* Recurse into RTE subquery or not-yet-planned sublink subquery */
Query *newnode;
context->sublevels_up++;
Adjust API of expression_tree_mutator and query_tree_mutator to simplify callers. It turns out the common case is that the caller does want to recurse into sub-queries, so push support for that into these subroutines.
23 years ago
newnode = query_tree_mutator((Query *) node,
flatten_join_alias_vars_mutator,
(void *) context,
QTW_IGNORE_JOINALIASES);
Allow merge and hash joins to occur on arbitrary expressions (anything not containing a volatile function), rather than only on 'Var = Var' clauses as before. This makes it practical to do flatten_join_alias_vars at the start of planning, which in turn eliminates a bunch of klugery inside the planner to deal with alias vars. As a free side effect, we now detect implied equality of non-Var expressions; for example in SELECT ... WHERE a.x = b.y and b.y = 42 we will deduce a.x = 42 and use that as a restriction qual on a. Also, we can remove the restriction introduced 12/5/02 to prevent pullup of subqueries whose targetlists contain sublinks. Still TODO: make statistical estimation routines in selfuncs.c and costsize.c smarter about expressions that are more complex than plain Vars. The need for this is considerably greater now that we have to be able to estimate the suitability of merge and hash join techniques on such expressions.
23 years ago
context->sublevels_up--;
return (Node *) newnode;
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
}
Allow merge and hash joins to occur on arbitrary expressions (anything not containing a volatile function), rather than only on 'Var = Var' clauses as before. This makes it practical to do flatten_join_alias_vars at the start of planning, which in turn eliminates a bunch of klugery inside the planner to deal with alias vars. As a free side effect, we now detect implied equality of non-Var expressions; for example in SELECT ... WHERE a.x = b.y and b.y = 42 we will deduce a.x = 42 and use that as a restriction qual on a. Also, we can remove the restriction introduced 12/5/02 to prevent pullup of subqueries whose targetlists contain sublinks. Still TODO: make statistical estimation routines in selfuncs.c and costsize.c smarter about expressions that are more complex than plain Vars. The need for this is considerably greater now that we have to be able to estimate the suitability of merge and hash join techniques on such expressions.
23 years ago
/* Already-planned tree not supported */
Arrange to convert EXISTS subqueries that are equivalent to hashable IN subqueries into the same thing you'd have gotten from IN (except always with unknownEqFalse = true, so as to get the proper semantics for an EXISTS). I believe this fixes the last case within CVS HEAD in which an EXISTS could give worse performance than an equivalent IN subquery. The tricky part of this is that if the upper query probes the EXISTS for only a few rows, the hashing implementation can actually be worse than the default, and therefore we need to make a cost-based decision about which way to use. But at the time when the planner generates plans for subqueries, it doesn't really know how many times the subquery will be executed. The least invasive solution seems to be to generate both plans and postpone the choice until execution. Therefore, in a query that has been optimized this way, EXPLAIN will show two subplans for the EXISTS, of which only one will actually get executed. There is a lot more that could be done based on this infrastructure: in particular it's interesting to consider switching to the hash plan if we start out using the non-hashed plan but find a lot more upper rows going by than we expected. I have therefore left some minor inefficiencies in place, such as initializing both subplans even though we will currently only use one.
17 years ago
Assert(!IsA(node, SubPlan));
Ooops, didn't cut-and-paste quite enough code from ResolveNew; with result that flatten_join_alias_vars failed to descend into subselects.
23 years ago
Second try at fixing join alias variables. Instead of attaching miscellaneous lists to join RTEs, attach a list of Vars and COALESCE expressions that will replace the join's alias variables during planning. This simplifies flatten_join_alias_vars while still making it easy to fix up varno references when transforming the query tree. Add regression test cases for interactions of subqueries with outer joins.
24 years ago
return expression_tree_mutator(node, flatten_join_alias_vars_mutator,
(void *) context);
Restructure representation of join alias variables. An explicit JOIN now has an RTE of its own, and references to its outputs now are Vars referencing the JOIN RTE, rather than CASE-expressions. This allows reverse-listing in ruleutils.c to use the correct alias easily, rather than painfully reverse-engineering the alias namespace as it used to do. Also, nested FULL JOINs work correctly, because the result of the inner joins are simple Vars that the planner can cope with. This fixes a bug reported a couple times now, notably by Tatsuo on 18-Nov-01. The alias Vars are expanded into COALESCE expressions where needed at the very end of planning, rather than during parsing. Also, beginnings of support for showing plan qualifier expressions in EXPLAIN. There are probably still cases that need work. initdb forced due to change of stored-rule representation.
24 years ago
}
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
/*
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
* alias_relid_set: in a set of RT indexes, replace joins by their
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
* underlying base relids
*/
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
static Relids
Remove planner's private fields from Query struct, and put them into a new PlannerInfo struct, which is passed around instead of the bare Query in all the planning code. This commit is essentially just a code-beautification exercise, but it does open the door to making larger changes to the planner data structures without having to muck with the widely-known Query struct.
21 years ago
alias_relid_set(PlannerInfo *root, Relids relids)
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
{
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
Relids result = NULL;
Relids tmprelids;
int rtindex;
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
tmprelids = bms_copy(relids);
while ((rtindex = bms_first_member(tmprelids)) >= 0)
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
{
Remove planner's private fields from Query struct, and put them into a new PlannerInfo struct, which is passed around instead of the bare Query in all the planning code. This commit is essentially just a code-beautification exercise, but it does open the door to making larger changes to the planner data structures without having to muck with the widely-known Query struct.
21 years ago
RangeTblEntry *rte = rt_fetch(rtindex, root->parse->rtable);
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
if (rte->rtekind == RTE_JOIN)
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
result = bms_join(result, get_relids_for_join(root, rtindex));
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
else
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
result = bms_add_member(result, rtindex);
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
}
Replace planner's representation of relation sets, per pghackers discussion. Instead of Lists of integers, we now store variable-length bitmap sets. This should be faster as well as less error-prone.
23 years ago
bms_free(tmprelids);
IN clauses appearing at top level of WHERE can now be handled as joins. There are two implementation techniques: the executor understands a new JOIN_IN jointype, which emits at most one matching row per left-hand row, or the result of the IN's sub-select can be fed through a DISTINCT filter and then joined as an ordinary relation. Along the way, some minor code cleanup in the optimizer; notably, break out most of the jointree-rearrangement preprocessing in planner.c and put it in a new file prep/prepjointree.c.
23 years ago
return result;
}