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ruleutils_14.c
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ruleutils_14.c
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/*-------------------------------------------------------------------------
*
* ruleutils_14.c
* Functions to convert stored expressions/querytrees back to
* source text
*
* Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* Part of src/backend/utils/adt/ruleutils.c in PostgreSQL 14 core
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/relation.h"
#include "catalog/pg_aggregate.h"
#include "catalog/pg_opclass.h"
#include "catalog/pg_operator.h"
#include "catalog/pg_proc.h"
#include "commands/defrem.h"
#include "common/keywords.h"
#include "funcapi.h"
#include "mb/pg_wchar.h"
#include "miscadmin.h"
#include "nodes/nodeFuncs.h"
#include "nodes/pathnodes.h"
#include "optimizer/optimizer.h"
#include "parser/parse_agg.h"
#include "parser/parse_func.h"
#include "parser/parse_oper.h"
#include "parser/parse_relation.h"
#include "parser/parser.h"
#include "parser/parsetree.h"
#include "rewrite/rewriteHandler.h"
#include "utils/builtins.h"
#include "utils/fmgroids.h"
#include "utils/hsearch.h"
#include "utils/lsyscache.h"
#include "utils/rel.h"
#include "utils/ruleutils.h"
#include "utils/syscache.h"
#include "utils/typcache.h"
#include "utils/xml.h"
/* ----------
* Pretty formatting constants
* ----------
*/
/* Indent counts */
#define PRETTYINDENT_STD 8
#define PRETTYINDENT_JOIN 4
#define PRETTYINDENT_VAR 4
#define PRETTYINDENT_LIMIT 40 /* wrap limit */
/* Pretty flags */
#define PRETTYFLAG_PAREN 0x0001
#define PRETTYFLAG_INDENT 0x0002
#define PRETTYFLAG_SCHEMA 0x0004
/* Default line length for pretty-print wrapping: 0 means wrap always */
#define WRAP_COLUMN_DEFAULT 0
/* macros to test if pretty action needed */
#define PRETTY_PAREN(context) ((context)->prettyFlags & PRETTYFLAG_PAREN)
#define PRETTY_INDENT(context) ((context)->prettyFlags & PRETTYFLAG_INDENT)
#define PRETTY_SCHEMA(context) ((context)->prettyFlags & PRETTYFLAG_SCHEMA)
/* ----------
* Local data types
* ----------
*/
/* Context info needed for invoking a recursive querytree display routine */
typedef struct
{
StringInfo buf; /* output buffer to append to */
List *namespaces; /* List of deparse_namespace nodes */
List *windowClause; /* Current query level's WINDOW clause */
List *windowTList; /* targetlist for resolving WINDOW clause */
int prettyFlags; /* enabling of pretty-print functions */
int wrapColumn; /* max line length, or -1 for no limit */
int indentLevel; /* current indent level for pretty-print */
bool varprefix; /* true to print prefixes on Vars */
ParseExprKind special_exprkind; /* set only for exprkinds needing special
* handling */
Bitmapset *appendparents; /* if not null, map child Vars of these relids
* back to the parent rel */
} deparse_context;
/*
* Each level of query context around a subtree needs a level of Var namespace.
* A Var having varlevelsup=N refers to the N'th item (counting from 0) in
* the current context's namespaces list.
*
* rtable is the list of actual RTEs from the Query or PlannedStmt.
* rtable_names holds the alias name to be used for each RTE (either a C
* string, or NULL for nameless RTEs such as unnamed joins).
* rtable_columns holds the column alias names to be used for each RTE.
*
* subplans is a list of Plan trees for SubPlans and CTEs (it's only used
* in the PlannedStmt case).
* ctes is a list of CommonTableExpr nodes (only used in the Query case).
* appendrels, if not null (it's only used in the PlannedStmt case), is an
* array of AppendRelInfo nodes, indexed by child relid. We use that to map
* child-table Vars to their inheritance parents.
*
* In some cases we need to make names of merged JOIN USING columns unique
* across the whole query, not only per-RTE. If so, unique_using is true
* and using_names is a list of C strings representing names already assigned
* to USING columns.
*
* When deparsing plan trees, there is always just a single item in the
* deparse_namespace list (since a plan tree never contains Vars with
* varlevelsup > 0). We store the Plan node that is the immediate
* parent of the expression to be deparsed, as well as a list of that
* Plan's ancestors. In addition, we store its outer and inner subplan nodes,
* as well as their targetlists, and the index tlist if the current plan node
* might contain INDEX_VAR Vars. (These fields could be derived on-the-fly
* from the current Plan node, but it seems notationally clearer to set them
* up as separate fields.)
*/
typedef struct
{
List *rtable; /* List of RangeTblEntry nodes */
List *rtable_names; /* Parallel list of names for RTEs */
List *rtable_columns; /* Parallel list of deparse_columns structs */
List *subplans; /* List of Plan trees for SubPlans */
List *ctes; /* List of CommonTableExpr nodes */
AppendRelInfo **appendrels; /* Array of AppendRelInfo nodes, or NULL */
/* Workspace for column alias assignment: */
bool unique_using; /* Are we making USING names globally unique */
List *using_names; /* List of assigned names for USING columns */
/* Remaining fields are used only when deparsing a Plan tree: */
Plan *plan; /* immediate parent of current expression */
List *ancestors; /* ancestors of plan */
Plan *outer_plan; /* outer subnode, or NULL if none */
Plan *inner_plan; /* inner subnode, or NULL if none */
List *outer_tlist; /* referent for OUTER_VAR Vars */
List *inner_tlist; /* referent for INNER_VAR Vars */
List *index_tlist; /* referent for INDEX_VAR Vars */
/* Special namespace representing a function signature: */
char *funcname;
int numargs;
char **argnames;
} deparse_namespace;
/*
* Per-relation data about column alias names.
*
* Selecting aliases is unreasonably complicated because of the need to dump
* rules/views whose underlying tables may have had columns added, deleted, or
* renamed since the query was parsed. We must nonetheless print the rule/view
* in a form that can be reloaded and will produce the same results as before.
*
* For each RTE used in the query, we must assign column aliases that are
* unique within that RTE. SQL does not require this of the original query,
* but due to factors such as *-expansion we need to be able to uniquely
* reference every column in a decompiled query. As long as we qualify all
* column references, per-RTE uniqueness is sufficient for that.
*
* However, we can't ensure per-column name uniqueness for unnamed join RTEs,
* since they just inherit column names from their input RTEs, and we can't
* rename the columns at the join level. Most of the time this isn't an issue
* because we don't need to reference the join's output columns as such; we
* can reference the input columns instead. That approach can fail for merged
* JOIN USING columns, however, so when we have one of those in an unnamed
* join, we have to make that column's alias globally unique across the whole
* query to ensure it can be referenced unambiguously.
*
* Another problem is that a JOIN USING clause requires the columns to be
* merged to have the same aliases in both input RTEs, and that no other
* columns in those RTEs or their children conflict with the USING names.
* To handle that, we do USING-column alias assignment in a recursive
* traversal of the query's jointree. When descending through a JOIN with
* USING, we preassign the USING column names to the child columns, overriding
* other rules for column alias assignment. We also mark each RTE with a list
* of all USING column names selected for joins containing that RTE, so that
* when we assign other columns' aliases later, we can avoid conflicts.
*
* Another problem is that if a JOIN's input tables have had columns added or
* deleted since the query was parsed, we must generate a column alias list
* for the join that matches the current set of input columns --- otherwise, a
* change in the number of columns in the left input would throw off matching
* of aliases to columns of the right input. Thus, positions in the printable
* column alias list are not necessarily one-for-one with varattnos of the
* JOIN, so we need a separate new_colnames[] array for printing purposes.
*/
typedef struct
{
/*
* colnames is an array containing column aliases to use for columns that
* existed when the query was parsed. Dropped columns have NULL entries.
* This array can be directly indexed by varattno to get a Var's name.
*
* Non-NULL entries are guaranteed unique within the RTE, *except* when
* this is for an unnamed JOIN RTE. In that case we merely copy up names
* from the two input RTEs.
*
* During the recursive descent in set_using_names(), forcible assignment
* of a child RTE's column name is represented by pre-setting that element
* of the child's colnames array. So at that stage, NULL entries in this
* array just mean that no name has been preassigned, not necessarily that
* the column is dropped.
*/
int num_cols; /* length of colnames[] array */
char **colnames; /* array of C strings and NULLs */
/*
* new_colnames is an array containing column aliases to use for columns
* that would exist if the query was re-parsed against the current
* definitions of its base tables. This is what to print as the column
* alias list for the RTE. This array does not include dropped columns,
* but it will include columns added since original parsing. Indexes in
* it therefore have little to do with current varattno values. As above,
* entries are unique unless this is for an unnamed JOIN RTE. (In such an
* RTE, we never actually print this array, but we must compute it anyway
* for possible use in computing column names of upper joins.) The
* parallel array is_new_col marks which of these columns are new since
* original parsing. Entries with is_new_col false must match the
* non-NULL colnames entries one-for-one.
*/
int num_new_cols; /* length of new_colnames[] array */
char **new_colnames; /* array of C strings */
bool *is_new_col; /* array of bool flags */
/* This flag tells whether we should actually print a column alias list */
bool printaliases;
/* This list has all names used as USING names in joins above this RTE */
List *parentUsing; /* names assigned to parent merged columns */
/*
* If this struct is for a JOIN RTE, we fill these fields during the
* set_using_names() pass to describe its relationship to its child RTEs.
*
* leftattnos and rightattnos are arrays with one entry per existing
* output column of the join (hence, indexable by join varattno). For a
* simple reference to a column of the left child, leftattnos[i] is the
* child RTE's attno and rightattnos[i] is zero; and conversely for a
* column of the right child. But for merged columns produced by JOIN
* USING/NATURAL JOIN, both leftattnos[i] and rightattnos[i] are nonzero.
* Note that a simple reference might be to a child RTE column that's been
* dropped; but that's OK since the column could not be used in the query.
*
* If it's a JOIN USING, usingNames holds the alias names selected for the
* merged columns (these might be different from the original USING list,
* if we had to modify names to achieve uniqueness).
*/
int leftrti; /* rangetable index of left child */
int rightrti; /* rangetable index of right child */
int *leftattnos; /* left-child varattnos of join cols, or 0 */
int *rightattnos; /* right-child varattnos of join cols, or 0 */
List *usingNames; /* names assigned to merged columns */
} deparse_columns;
/* This macro is analogous to rt_fetch(), but for deparse_columns structs */
#define deparse_columns_fetch(rangetable_index, dpns) \
((deparse_columns *) list_nth((dpns)->rtable_columns, (rangetable_index)-1))
/*
* Entry in set_rtable_names' hash table
*/
typedef struct
{
char name[NAMEDATALEN]; /* Hash key --- must be first */
int counter; /* Largest addition used so far for name */
} NameHashEntry;
/* Callback signature for resolve_special_varno() */
typedef void (*rsv_callback) (Node *node, deparse_context *context,
void *callback_arg);
/* ----------
* Local functions
*
* Most of these functions used to use fixed-size buffers to build their
* results. Now, they take an (already initialized) StringInfo object
* as a parameter, and append their text output to its contents.
* ----------
*/
static void set_rtable_names(deparse_namespace *dpns, List *parent_namespaces,
Bitmapset *rels_used);
static void set_deparse_for_query(deparse_namespace *dpns, Query *query,
List *parent_namespaces);
static bool has_dangerous_join_using(deparse_namespace *dpns, Node *jtnode);
static void set_using_names(deparse_namespace *dpns, Node *jtnode,
List *parentUsing);
static void set_relation_column_names(deparse_namespace *dpns,
RangeTblEntry *rte,
deparse_columns *colinfo);
static void set_join_column_names(deparse_namespace *dpns, RangeTblEntry *rte,
deparse_columns *colinfo);
static bool colname_is_unique(const char *colname, deparse_namespace *dpns,
deparse_columns *colinfo);
static char *make_colname_unique(char *colname, deparse_namespace *dpns,
deparse_columns *colinfo);
static void expand_colnames_array_to(deparse_columns *colinfo, int n);
static void identify_join_columns(JoinExpr *j, RangeTblEntry *jrte,
deparse_columns *colinfo);
static char *get_rtable_name(int rtindex, deparse_context *context);
static void set_deparse_plan(deparse_namespace *dpns, Plan *plan);
static Plan *find_recursive_union(deparse_namespace *dpns,
WorkTableScan *wtscan);
static void push_child_plan(deparse_namespace *dpns, Plan *plan,
deparse_namespace *save_dpns);
static void pop_child_plan(deparse_namespace *dpns,
deparse_namespace *save_dpns);
static void push_ancestor_plan(deparse_namespace *dpns, ListCell *ancestor_cell,
deparse_namespace *save_dpns);
static void pop_ancestor_plan(deparse_namespace *dpns,
deparse_namespace *save_dpns);
static void get_query_def(Query *query, StringInfo buf, List *parentnamespace,
TupleDesc resultDesc, bool colNamesVisible,
int prettyFlags, int wrapColumn, int startIndent);
static void get_values_def(List *values_lists, deparse_context *context);
static void get_with_clause(Query *query, deparse_context *context);
static void get_select_query_def(Query *query, deparse_context *context,
TupleDesc resultDesc, bool colNamesVisible);
static void get_insert_query_def(Query *query, deparse_context *context,
bool colNamesVisible);
static void get_update_query_def(Query *query, deparse_context *context,
bool colNamesVisible);
static void get_update_query_targetlist_def(Query *query, List *targetList,
deparse_context *context,
RangeTblEntry *rte);
static void get_delete_query_def(Query *query, deparse_context *context,
bool colNamesVisible);
static void get_utility_query_def(Query *query, deparse_context *context);
static void get_basic_select_query(Query *query, deparse_context *context,
TupleDesc resultDesc, bool colNamesVisible);
static void get_target_list(List *targetList, deparse_context *context,
TupleDesc resultDesc, bool colNamesVisible);
static void get_setop_query(Node *setOp, Query *query,
deparse_context *context,
TupleDesc resultDesc, bool colNamesVisible);
static Node *get_rule_sortgroupclause(Index ref, List *tlist,
bool force_colno,
deparse_context *context);
static void get_rule_groupingset(GroupingSet *gset, List *targetlist,
bool omit_parens, deparse_context *context);
static void get_rule_orderby(List *orderList, List *targetList,
bool force_colno, deparse_context *context);
static void get_rule_windowclause(Query *query, deparse_context *context);
static void get_rule_windowspec(WindowClause *wc, List *targetList,
deparse_context *context);
static char *get_variable(Var *var, int levelsup, bool istoplevel,
deparse_context *context);
static void get_special_variable(Node *node, deparse_context *context,
void *callback_arg);
static void resolve_special_varno(Node *node, deparse_context *context,
rsv_callback callback, void *callback_arg);
static Node *find_param_referent(Param *param, deparse_context *context,
deparse_namespace **dpns_p, ListCell **ancestor_cell_p);
static void get_parameter(Param *param, deparse_context *context);
static const char *get_simple_binary_op_name(OpExpr *expr);
static bool isSimpleNode(Node *node, Node *parentNode, int prettyFlags);
static void appendContextKeyword(deparse_context *context, const char *str,
int indentBefore, int indentAfter, int indentPlus);
static void removeStringInfoSpaces(StringInfo str);
static void get_rule_expr(Node *node, deparse_context *context,
bool showimplicit);
static void get_rule_expr_toplevel(Node *node, deparse_context *context,
bool showimplicit);
static void get_rule_list_toplevel(List *lst, deparse_context *context,
bool showimplicit);
static void get_rule_expr_funccall(Node *node, deparse_context *context,
bool showimplicit);
static bool looks_like_function(Node *node);
static void get_oper_expr(OpExpr *expr, deparse_context *context);
static void get_func_expr(FuncExpr *expr, deparse_context *context,
bool showimplicit);
static void get_agg_expr(Aggref *aggref, deparse_context *context,
Aggref *original_aggref);
static void get_agg_combine_expr(Node *node, deparse_context *context,
void *callback_arg);
static void get_windowfunc_expr(WindowFunc *wfunc, deparse_context *context);
static bool get_func_sql_syntax(FuncExpr *expr, deparse_context *context);
static void get_coercion_expr(Node *arg, deparse_context *context,
Oid resulttype, int32 resulttypmod,
Node *parentNode);
static void get_const_expr(Const *constval, deparse_context *context,
int showtype);
static void get_const_collation(Const *constval, deparse_context *context);
static void simple_quote_literal(StringInfo buf, const char *val);
static void get_sublink_expr(SubLink *sublink, deparse_context *context);
static void get_tablefunc(TableFunc *tf, deparse_context *context,
bool showimplicit);
static void get_from_clause(Query *query, const char *prefix,
deparse_context *context);
static void get_from_clause_item(Node *jtnode, Query *query,
deparse_context *context);
static void get_column_alias_list(deparse_columns *colinfo,
deparse_context *context);
static void get_from_clause_coldeflist(RangeTblFunction *rtfunc,
deparse_columns *colinfo,
deparse_context *context);
static void get_tablesample_def(TableSampleClause *tablesample,
deparse_context *context);
static void get_opclass_name(Oid opclass, Oid actual_datatype,
StringInfo buf);
static Node *processIndirection(Node *node, deparse_context *context);
static void printSubscripts(SubscriptingRef *sbsref, deparse_context *context);
static char *get_relation_name(Oid relid);
static char *generate_relation_name(Oid relid, List *namespaces);
static char *generate_function_name(Oid funcid, int nargs,
List *argnames, Oid *argtypes,
bool has_variadic, bool *use_variadic_p,
ParseExprKind special_exprkind);
static char *generate_operator_name(Oid operid, Oid arg1, Oid arg2);
#define only_marker(rte) ((rte)->inh ? "" : "ONLY ")
/*
* set_rtable_names: select RTE aliases to be used in printing a query
*
* We fill in dpns->rtable_names with a list of names that is one-for-one with
* the already-filled dpns->rtable list. Each RTE name is unique among those
* in the new namespace plus any ancestor namespaces listed in
* parent_namespaces.
*
* If rels_used isn't NULL, only RTE indexes listed in it are given aliases.
*
* Note that this function is only concerned with relation names, not column
* names.
*/
static void
set_rtable_names(deparse_namespace *dpns, List *parent_namespaces,
Bitmapset *rels_used)
{
HASHCTL hash_ctl;
HTAB *names_hash;
NameHashEntry *hentry;
bool found;
int rtindex;
ListCell *lc;
dpns->rtable_names = NIL;
/* nothing more to do if empty rtable */
if (dpns->rtable == NIL)
return;
/*
* We use a hash table to hold known names, so that this process is O(N)
* not O(N^2) for N names.
*/
hash_ctl.keysize = NAMEDATALEN;
hash_ctl.entrysize = sizeof(NameHashEntry);
hash_ctl.hcxt = CurrentMemoryContext;
names_hash = hash_create("set_rtable_names names",
list_length(dpns->rtable),
&hash_ctl,
HASH_ELEM | HASH_STRINGS | HASH_CONTEXT);
/* Preload the hash table with names appearing in parent_namespaces */
foreach(lc, parent_namespaces)
{
deparse_namespace *olddpns = (deparse_namespace *) lfirst(lc);
ListCell *lc2;
foreach(lc2, olddpns->rtable_names)
{
char *oldname = (char *) lfirst(lc2);
if (oldname == NULL)
continue;
hentry = (NameHashEntry *) hash_search(names_hash,
oldname,
HASH_ENTER,
&found);
/* we do not complain about duplicate names in parent namespaces */
hentry->counter = 0;
}
}
/* Now we can scan the rtable */
rtindex = 1;
foreach(lc, dpns->rtable)
{
RangeTblEntry *rte = (RangeTblEntry *) lfirst(lc);
char *refname;
/* Just in case this takes an unreasonable amount of time ... */
CHECK_FOR_INTERRUPTS();
if (rels_used && !bms_is_member(rtindex, rels_used))
{
/* Ignore unreferenced RTE */
refname = NULL;
}
else if (rte->alias)
{
/* If RTE has a user-defined alias, prefer that */
refname = rte->alias->aliasname;
}
else if (rte->rtekind == RTE_RELATION)
{
/* Use the current actual name of the relation */
refname = get_rel_name(rte->relid);
}
else if (rte->rtekind == RTE_JOIN)
{
/* Unnamed join has no refname */
refname = NULL;
}
else
{
/* Otherwise use whatever the parser assigned */
refname = rte->eref->aliasname;
}
/*
* If the selected name isn't unique, append digits to make it so, and
* make a new hash entry for it once we've got a unique name. For a
* very long input name, we might have to truncate to stay within
* NAMEDATALEN.
*/
if (refname)
{
hentry = (NameHashEntry *) hash_search(names_hash,
refname,
HASH_ENTER,
&found);
if (found)
{
/* Name already in use, must choose a new one */
int refnamelen = strlen(refname);
char *modname = (char *) palloc(refnamelen + 16);
NameHashEntry *hentry2;
do
{
hentry->counter++;
for (;;)
{
memcpy(modname, refname, refnamelen);
sprintf(modname + refnamelen, "_%d", hentry->counter);
if (strlen(modname) < NAMEDATALEN)
break;
/* drop chars from refname to keep all the digits */
refnamelen = pg_mbcliplen(refname, refnamelen,
refnamelen - 1);
}
hentry2 = (NameHashEntry *) hash_search(names_hash,
modname,
HASH_ENTER,
&found);
} while (found);
hentry2->counter = 0; /* init new hash entry */
refname = modname;
}
else
{
/* Name not previously used, need only initialize hentry */
hentry->counter = 0;
}
}
dpns->rtable_names = lappend(dpns->rtable_names, refname);
rtindex++;
}
hash_destroy(names_hash);
}
/*
* set_deparse_for_query: set up deparse_namespace for deparsing a Query tree
*
* For convenience, this is defined to initialize the deparse_namespace struct
* from scratch.
*/
static void
set_deparse_for_query(deparse_namespace *dpns, Query *query,
List *parent_namespaces)
{
ListCell *lc;
ListCell *lc2;
/* Initialize *dpns and fill rtable/ctes links */
memset(dpns, 0, sizeof(deparse_namespace));
dpns->rtable = query->rtable;
dpns->subplans = NIL;
dpns->ctes = query->cteList;
dpns->appendrels = NULL;
/* Assign a unique relation alias to each RTE */
set_rtable_names(dpns, parent_namespaces, NULL);
/* Initialize dpns->rtable_columns to contain zeroed structs */
dpns->rtable_columns = NIL;
while (list_length(dpns->rtable_columns) < list_length(dpns->rtable))
dpns->rtable_columns = lappend(dpns->rtable_columns,
palloc0(sizeof(deparse_columns)));
/* If it's a utility query, it won't have a jointree */
if (query->jointree)
{
/* Detect whether global uniqueness of USING names is needed */
dpns->unique_using =
has_dangerous_join_using(dpns, (Node *) query->jointree);
/*
* Select names for columns merged by USING, via a recursive pass over
* the query jointree.
*/
set_using_names(dpns, (Node *) query->jointree, NIL);
}
/*
* Now assign remaining column aliases for each RTE. We do this in a
* linear scan of the rtable, so as to process RTEs whether or not they
* are in the jointree (we mustn't miss NEW.*, INSERT target relations,
* etc). JOIN RTEs must be processed after their children, but this is
* okay because they appear later in the rtable list than their children
* (cf Asserts in identify_join_columns()).
*/
forboth(lc, dpns->rtable, lc2, dpns->rtable_columns)
{
RangeTblEntry *rte = (RangeTblEntry *) lfirst(lc);
deparse_columns *colinfo = (deparse_columns *) lfirst(lc2);
if (rte->rtekind == RTE_JOIN)
set_join_column_names(dpns, rte, colinfo);
else
set_relation_column_names(dpns, rte, colinfo);
}
}
/*
* has_dangerous_join_using: search jointree for unnamed JOIN USING
*
* Merged columns of a JOIN USING may act differently from either of the input
* columns, either because they are merged with COALESCE (in a FULL JOIN) or
* because an implicit coercion of the underlying input column is required.
* In such a case the column must be referenced as a column of the JOIN not as
* a column of either input. And this is problematic if the join is unnamed
* (alias-less): we cannot qualify the column's name with an RTE name, since
* there is none. (Forcibly assigning an alias to the join is not a solution,
* since that will prevent legal references to tables below the join.)
* To ensure that every column in the query is unambiguously referenceable,
* we must assign such merged columns names that are globally unique across
* the whole query, aliasing other columns out of the way as necessary.
*
* Because the ensuing re-aliasing is fairly damaging to the readability of
* the query, we don't do this unless we have to. So, we must pre-scan
* the join tree to see if we have to, before starting set_using_names().
*/
static bool
has_dangerous_join_using(deparse_namespace *dpns, Node *jtnode)
{
if (IsA(jtnode, RangeTblRef))
{
/* nothing to do here */
}
else if (IsA(jtnode, FromExpr))
{
FromExpr *f = (FromExpr *) jtnode;
ListCell *lc;
foreach(lc, f->fromlist)
{
if (has_dangerous_join_using(dpns, (Node *) lfirst(lc)))
return true;
}
}
else if (IsA(jtnode, JoinExpr))
{
JoinExpr *j = (JoinExpr *) jtnode;
/* Is it an unnamed JOIN with USING? */
if (j->alias == NULL && j->usingClause)
{
/*
* Yes, so check each join alias var to see if any of them are not
* simple references to underlying columns. If so, we have a
* dangerous situation and must pick unique aliases.
*/
RangeTblEntry *jrte = rt_fetch(j->rtindex, dpns->rtable);
/* We need only examine the merged columns */
for (int i = 0; i < jrte->joinmergedcols; i++)
{
Node *aliasvar = list_nth(jrte->joinaliasvars, i);
if (!IsA(aliasvar, Var))
return true;
}
}
/* Nope, but inspect children */
if (has_dangerous_join_using(dpns, j->larg))
return true;
if (has_dangerous_join_using(dpns, j->rarg))
return true;
}
else
elog(ERROR, "unrecognized node type: %d",
(int) nodeTag(jtnode));
return false;
}
/*
* set_using_names: select column aliases to be used for merged USING columns
*
* We do this during a recursive descent of the query jointree.
* dpns->unique_using must already be set to determine the global strategy.
*
* Column alias info is saved in the dpns->rtable_columns list, which is
* assumed to be filled with pre-zeroed deparse_columns structs.
*
* parentUsing is a list of all USING aliases assigned in parent joins of
* the current jointree node. (The passed-in list must not be modified.)
*/
static void
set_using_names(deparse_namespace *dpns, Node *jtnode, List *parentUsing)
{
if (IsA(jtnode, RangeTblRef))
{
/* nothing to do now */
}
else if (IsA(jtnode, FromExpr))
{
FromExpr *f = (FromExpr *) jtnode;
ListCell *lc;
foreach(lc, f->fromlist)
set_using_names(dpns, (Node *) lfirst(lc), parentUsing);
}
else if (IsA(jtnode, JoinExpr))
{
JoinExpr *j = (JoinExpr *) jtnode;
RangeTblEntry *rte = rt_fetch(j->rtindex, dpns->rtable);
deparse_columns *colinfo = deparse_columns_fetch(j->rtindex, dpns);
int *leftattnos;
int *rightattnos;
deparse_columns *leftcolinfo;
deparse_columns *rightcolinfo;
int i;
ListCell *lc;
/* Get info about the shape of the join */
identify_join_columns(j, rte, colinfo);
leftattnos = colinfo->leftattnos;
rightattnos = colinfo->rightattnos;
/* Look up the not-yet-filled-in child deparse_columns structs */
leftcolinfo = deparse_columns_fetch(colinfo->leftrti, dpns);
rightcolinfo = deparse_columns_fetch(colinfo->rightrti, dpns);
/*
* If this join is unnamed, then we cannot substitute new aliases at
* this level, so any name requirements pushed down to here must be
* pushed down again to the children.
*/
if (rte->alias == NULL)
{
for (i = 0; i < colinfo->num_cols; i++)
{
char *colname = colinfo->colnames[i];
if (colname == NULL)
continue;
/* Push down to left column, unless it's a system column */
if (leftattnos[i] > 0)
{
expand_colnames_array_to(leftcolinfo, leftattnos[i]);
leftcolinfo->colnames[leftattnos[i] - 1] = colname;
}
/* Same on the righthand side */
if (rightattnos[i] > 0)
{
expand_colnames_array_to(rightcolinfo, rightattnos[i]);
rightcolinfo->colnames[rightattnos[i] - 1] = colname;
}
}
}
/*
* If there's a USING clause, select the USING column names and push
* those names down to the children. We have two strategies:
*
* If dpns->unique_using is true, we force all USING names to be
* unique across the whole query level. In principle we'd only need
* the names of dangerous USING columns to be globally unique, but to
* safely assign all USING names in a single pass, we have to enforce
* the same uniqueness rule for all of them. However, if a USING
* column's name has been pushed down from the parent, we should use
* it as-is rather than making a uniqueness adjustment. This is
* necessary when we're at an unnamed join, and it creates no risk of
* ambiguity. Also, if there's a user-written output alias for a
* merged column, we prefer to use that rather than the input name;
* this simplifies the logic and seems likely to lead to less aliasing
* overall.
*
* If dpns->unique_using is false, we only need USING names to be
* unique within their own join RTE. We still need to honor
* pushed-down names, though.
*
* Though significantly different in results, these two strategies are
* implemented by the same code, with only the difference of whether
* to put assigned names into dpns->using_names.
*/
if (j->usingClause)
{
/* Copy the input parentUsing list so we don't modify it */
parentUsing = list_copy(parentUsing);
/* USING names must correspond to the first join output columns */
expand_colnames_array_to(colinfo, list_length(j->usingClause));
i = 0;
foreach(lc, j->usingClause)
{
char *colname = strVal(lfirst(lc));
/* Assert it's a merged column */
Assert(leftattnos[i] != 0 && rightattnos[i] != 0);
/* Adopt passed-down name if any, else select unique name */
if (colinfo->colnames[i] != NULL)
colname = colinfo->colnames[i];
else
{
/* Prefer user-written output alias if any */
if (rte->alias && i < list_length(rte->alias->colnames))
colname = strVal(list_nth(rte->alias->colnames, i));
/* Make it appropriately unique */
colname = make_colname_unique(colname, dpns, colinfo);
if (dpns->unique_using)
dpns->using_names = lappend(dpns->using_names,
colname);
/* Save it as output column name, too */
colinfo->colnames[i] = colname;
}
/* Remember selected names for use later */
colinfo->usingNames = lappend(colinfo->usingNames, colname);
parentUsing = lappend(parentUsing, colname);
/* Push down to left column, unless it's a system column */
if (leftattnos[i] > 0)
{
expand_colnames_array_to(leftcolinfo, leftattnos[i]);
leftcolinfo->colnames[leftattnos[i] - 1] = colname;
}
/* Same on the righthand side */
if (rightattnos[i] > 0)
{
expand_colnames_array_to(rightcolinfo, rightattnos[i]);
rightcolinfo->colnames[rightattnos[i] - 1] = colname;
}
i++;
}
}
/* Mark child deparse_columns structs with correct parentUsing info */
leftcolinfo->parentUsing = parentUsing;
rightcolinfo->parentUsing = parentUsing;
/* Now recursively assign USING column names in children */
set_using_names(dpns, j->larg, parentUsing);
set_using_names(dpns, j->rarg, parentUsing);
}
else
elog(ERROR, "unrecognized node type: %d",
(int) nodeTag(jtnode));
}
/*
* set_relation_column_names: select column aliases for a non-join RTE
*
* Column alias info is saved in *colinfo, which is assumed to be pre-zeroed.
* If any colnames entries are already filled in, those override local
* choices.
*/
static void
set_relation_column_names(deparse_namespace *dpns, RangeTblEntry *rte,
deparse_columns *colinfo)
{
int ncolumns;
char **real_colnames;
bool changed_any;
int noldcolumns;
int i;
int j;
/*
* Construct an array of the current "real" column names of the RTE.
* real_colnames[] will be indexed by physical column number, with NULL
* entries for dropped columns.
*/
if (rte->rtekind == RTE_RELATION)
{
/* Relation --- look to the system catalogs for up-to-date info */
Relation rel;
TupleDesc tupdesc;
rel = relation_open(rte->relid, AccessShareLock);
tupdesc = RelationGetDescr(rel);
ncolumns = tupdesc->natts;
real_colnames = (char **) palloc(ncolumns * sizeof(char *));
for (i = 0; i < ncolumns; i++)
{
Form_pg_attribute attr = TupleDescAttr(tupdesc, i);
if (attr->attisdropped)
real_colnames[i] = NULL;
else
real_colnames[i] = pstrdup(NameStr(attr->attname));
}
relation_close(rel, AccessShareLock);
}
else
{
/* Otherwise get the column names from eref or expandRTE() */
List *colnames;
ListCell *lc;
/*
* Functions returning composites have the annoying property that some
* of the composite type's columns might have been dropped since the
* query was parsed. If possible, use expandRTE() to handle that
* case, since it has the tedious logic needed to find out about
* dropped columns. However, if we're explaining a plan, then we
* don't have rte->functions because the planner thinks that won't be
* needed later, and that breaks expandRTE(). So in that case we have
* to rely on rte->eref, which may lead us to report a dropped
* column's old name; that seems close enough for EXPLAIN's purposes.
*
* For non-RELATION, non-FUNCTION RTEs, we can just look at rte->eref,
* which should be sufficiently up-to-date: no other RTE types can
* have columns get dropped from under them after parsing.
*/
if (rte->rtekind == RTE_FUNCTION && rte->functions != NIL)
{
/* Since we're not creating Vars, rtindex etc. don't matter */
expandRTE(rte, 1, 0, -1, true /* include dropped */ ,
&colnames, NULL);
}
else
colnames = rte->eref->colnames;
ncolumns = list_length(colnames);
real_colnames = (char **) palloc(ncolumns * sizeof(char *));
i = 0;
foreach(lc, colnames)
{
/*
* If the column name we find here is an empty string, then it's a
* dropped column, so change to NULL.
*/
char *cname = strVal(lfirst(lc));
if (cname[0] == '\0')
cname = NULL;
real_colnames[i] = cname;
i++;
}
}
/*
* Ensure colinfo->colnames has a slot for each column. (It could be long
* enough already, if we pushed down a name for the last column.) Note:
* it's possible that there are now more columns than there were when the
* query was parsed, ie colnames could be longer than rte->eref->colnames.
* We must assign unique aliases to the new columns too, else there could
* be unresolved conflicts when the view/rule is reloaded.
*/
expand_colnames_array_to(colinfo, ncolumns);
Assert(colinfo->num_cols == ncolumns);
/*
* Make sufficiently large new_colnames and is_new_col arrays, too.
*
* Note: because we leave colinfo->num_new_cols zero until after the loop,
* colname_is_unique will not consult that array, which is fine because it
* would only be duplicate effort.
*/
colinfo->new_colnames = (char **) palloc(ncolumns * sizeof(char *));
colinfo->is_new_col = (bool *) palloc(ncolumns * sizeof(bool));
/*
* Scan the columns, select a unique alias for each one, and store it in
* colinfo->colnames and colinfo->new_colnames. The former array has NULL
* entries for dropped columns, the latter omits them. Also mark
* new_colnames entries as to whether they are new since parse time; this
* is the case for entries beyond the length of rte->eref->colnames.
*/
noldcolumns = list_length(rte->eref->colnames);