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/*-------------------------------------------------------------------------
*
* var.c
* Var node manipulation routines
*
* Portions Copyright (c) 1996-2005, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/optimizer/util/var.c,v 1.65 2005/06/05 22:32:56 tgl Exp $
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "nodes/plannodes.h"
#include "optimizer/clauses.h"
#include "optimizer/prep.h"
#include "optimizer/var.h"
#include "parser/parsetree.h"
#include "rewrite/rewriteManip.h"
typedef struct
{
Relids varnos;
int sublevels_up;
} pull_varnos_context;
typedef struct
{
int varno;
int varattno;
int sublevels_up;
} contain_var_reference_context;
typedef struct
{
int min_varlevel;
int sublevels_up;
} find_minimum_var_level_context;
typedef struct
{
List *varlist;
bool includeUpperVars;
} pull_var_clause_context;
typedef struct
{
PlannerInfo *root;
int sublevels_up;
} flatten_join_alias_vars_context;
static bool pull_varnos_walker(Node *node,
pull_varnos_context *context);
static bool contain_var_reference_walker(Node *node,
contain_var_reference_context *context);
static bool contain_var_clause_walker(Node *node, void *context);
static bool contain_vars_of_level_walker(Node *node, int *sublevels_up);
static bool contain_vars_above_level_walker(Node *node, int *sublevels_up);
static bool find_minimum_var_level_walker(Node *node,
find_minimum_var_level_context *context);
static bool pull_var_clause_walker(Node *node,
pull_var_clause_context *context);
static Node *flatten_join_alias_vars_mutator(Node *node,
flatten_join_alias_vars_context *context);
static Relids alias_relid_set(PlannerInfo *root, Relids relids);
/*
* pull_varnos
* Create a set of all the distinct varnos present in a parsetree.
* Only varnos that reference level-zero rtable entries are considered.
*
* 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
* references to the desired rtable level! But when we find a completed
* SubPlan, we only need to look at the parameters passed to the subplan.
*/
Relids
pull_varnos(Node *node)
{
pull_varnos_context context;
context.varnos = NULL;
context.sublevels_up = 0;
/*
* 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.
*/
query_or_expression_tree_walker(node,
pull_varnos_walker,
(void *) &context,
0);
return context.varnos;
}
static bool
pull_varnos_walker(Node *node, pull_varnos_context *context)
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
Var *var = (Var *) node;
if (var->varlevelsup == context->sublevels_up)
context->varnos = bms_add_member(context->varnos, var->varno);
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, pull_varnos_walker,
(void *) context, 0);
context->sublevels_up--;
return result;
}
return expression_tree_walker(node, pull_varnos_walker,
(void *) context);
}
/*
* contain_var_reference
*
* Detect whether a parsetree contains any references to a specified
* attribute of a specified rtable entry.
*
* 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
* references to the desired rtable entry! But when we find a completed
* SubPlan, we only need to look at the parameters passed to the subplan.
*/
bool
contain_var_reference(Node *node, int varno, int varattno, int levelsup)
{
contain_var_reference_context context;
context.varno = varno;
context.varattno = varattno;
context.sublevels_up = levelsup;
/*
* 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.
*/
return query_or_expression_tree_walker(node,
contain_var_reference_walker,
(void *) &context,
0);
}
static bool
contain_var_reference_walker(Node *node,
contain_var_reference_context *context)
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
Var *var = (Var *) node;
if (var->varno == context->varno &&
var->varattno == context->varattno &&
var->varlevelsup == context->sublevels_up)
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,
contain_var_reference_walker,
(void *) context, 0);
context->sublevels_up--;
return result;
}
return expression_tree_walker(node, contain_var_reference_walker,
(void *) context);
}
/*
* contain_var_clause
* Recursively scan a clause to discover whether it contains any Var nodes
* (of the current query level).
*
* Returns true if any varnode found.
*
* Does not examine subqueries, therefore must only be used after reduction
* of sublinks to subplans!
*/
bool
contain_var_clause(Node *node)
{
return contain_var_clause_walker(node, NULL);
}
static bool
contain_var_clause_walker(Node *node, void *context)
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
if (((Var *) node)->varlevelsup == 0)
return true; /* abort the tree traversal and return
* true */
return false;
}
return expression_tree_walker(node, contain_var_clause_walker, context);
}
/*
* 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.
*
* Will recurse into sublinks. Also, may be invoked directly on a Query.
*/
bool
contain_vars_of_level(Node *node, int levelsup)
{
int sublevels_up = levelsup;
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 */
}
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
* above the specified query level. (For example, pass zero to detect
* all nonlocal Vars.)
*
* Returns true if any such Var found.
*
* Will recurse into sublinks. Also, may be invoked directly on a Query.
*/
bool
contain_vars_above_level(Node *node, int levelsup)
{
int sublevels_up = levelsup;
return query_or_expression_tree_walker(node,
contain_vars_above_level_walker,
(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);
}
/*
* 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.
*
* Will recurse into sublinks. Also, may be invoked directly on a Query.
*/
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,
find_minimum_var_level_context *context)
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
int varlevelsup = ((Var *) node)->varlevelsup;
/* convert levelsup to frame of reference of original query */
varlevelsup -= context->sublevels_up;
/* 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;
}
}
}
/*
* 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(*)).
*/
if (IsA(node, Aggref))
{
int agglevelsup = ((Aggref *) node)->agglevelsup;
/* 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;
/*
* As soon as we find a local aggregate, we can abort the
* tree traversal, since min_varlevel is then certainly 0.
*/
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);
}
/*
* pull_var_clause
* Recursively pulls all var nodes from an expression clause.
*
* Upper-level vars (with varlevelsup > 0) are included only
* if includeUpperVars is true. Most callers probably want
* to ignore upper-level vars.
*
* Returns list of varnodes found. Note the varnodes themselves are not
* copied, only referenced.
*
* Does not examine subqueries, therefore must only be used after reduction
* of sublinks to subplans!
*/
List *
pull_var_clause(Node *node, bool includeUpperVars)
{
pull_var_clause_context context;
context.varlist = NIL;
context.includeUpperVars = includeUpperVars;
pull_var_clause_walker(node, &context);
return context.varlist;
}
static bool
pull_var_clause_walker(Node *node, pull_var_clause_context *context)
{
if (node == NULL)
return false;
if (IsA(node, Var))
{
if (((Var *) node)->varlevelsup == 0 || context->includeUpperVars)
context->varlist = lappend(context->varlist, node);
return false;
}
return expression_tree_walker(node, pull_var_clause_walker,
(void *) context);
}
/*
* flatten_join_alias_vars
* Replace Vars that reference JOIN outputs with references to the original
* relation variables instead. This allows quals involving such vars to be
* pushed down. Whole-row Vars that reference JOIN relations are expanded
* 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.
*
* NOTE: this is used on not-yet-planned expressions. We do not expect it
* to be applied directly to a Query node.
*/
Node *
flatten_join_alias_vars(PlannerInfo *root, Node *node)
{
flatten_join_alias_vars_context context;
context.root = root;
context.sublevels_up = 0;
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))
{
Var *var = (Var *) node;
RangeTblEntry *rte;
Node *newvar;
/* No change unless Var belongs to a JOIN of the target level */
if (var->varlevelsup != context->sublevels_up)
return node; /* no need to copy, really */
rte = rt_fetch(var->varno, context->root->parse->rtable);
if (rte->rtekind != RTE_JOIN)
return node;
if (var->varattno == InvalidAttrNumber)
{
/* Must expand whole-row reference */
RowExpr *rowexpr;
List *fields = NIL;
AttrNumber attnum;
ListCell *l;
attnum = 0;
foreach(l, rte->joinaliasvars)
{
newvar = (Node *) lfirst(l);
attnum++;
/* Ignore dropped columns */
if (IsA(newvar, Const))
continue;
/*
* 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 */
Assert(var->varattno > 0);
newvar = (Node *) list_nth(rte->joinaliasvars, var->varattno - 1);
/*
* 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 */
return flatten_join_alias_vars_mutator(newvar, context);
}
if (IsA(node, InClauseInfo))
{
/* Copy the InClauseInfo node with correct mutation of subnodes */
InClauseInfo *ininfo;
ininfo = (InClauseInfo *) expression_tree_mutator(node,
flatten_join_alias_vars_mutator,
(void *) context);
/* now fix InClauseInfo's relid sets */
if (context->sublevels_up == 0)
{
ininfo->lefthand = alias_relid_set(context->root,
ininfo->lefthand);
ininfo->righthand = alias_relid_set(context->root,
ininfo->righthand);
}
return (Node *) ininfo;
}
if (IsA(node, Query))
{
/* Recurse into RTE subquery or not-yet-planned sublink subquery */
Query *newnode;
context->sublevels_up++;
newnode = query_tree_mutator((Query *) node,
flatten_join_alias_vars_mutator,
(void *) context,
QTW_IGNORE_JOINALIASES);
context->sublevels_up--;
return (Node *) newnode;
}
/* Already-planned tree not supported */
Assert(!is_subplan(node));
return expression_tree_mutator(node, flatten_join_alias_vars_mutator,
(void *) context);
}
/*
* alias_relid_set: in a set of RT indexes, replace joins by their
* underlying base relids
*/
static Relids
alias_relid_set(PlannerInfo *root, Relids relids)
{
Relids result = NULL;
Relids tmprelids;
int rtindex;
tmprelids = bms_copy(relids);
while ((rtindex = bms_first_member(tmprelids)) >= 0)
{
RangeTblEntry *rte = rt_fetch(rtindex, root->parse->rtable);
if (rte->rtekind == RTE_JOIN)
result = bms_join(result, get_relids_for_join(root, rtindex));
else
result = bms_add_member(result, rtindex);
}
bms_free(tmprelids);
return result;
}
|
