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/*-------------------------------------------------------------------------
*
* nodes.h
* Definitions for tagged nodes.
*
*
* Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* src/include/nodes/nodes.h
*
*-------------------------------------------------------------------------
*/
#ifndef NODES_H
#define NODES_H
/*
* The first field of every node is NodeTag. Each node created (with makeNode)
* will have one of the following tags as the value of its first field.
*
* Note that inserting or deleting node types changes the numbers of other
* node types later in the list. This is no problem during development, since
* the node numbers are never stored on disk. But don't do it in a released
* branch, because that would represent an ABI break for extensions.
*/
typedef enum NodeTag
{
T_Invalid = 0,
#include "nodes/nodetags.h"
} NodeTag;
/*
* pg_node_attr() - Used in node definitions to set extra information for
* gen_node_support.pl
*
* Attributes can be attached to a node as a whole (place the attribute
* specification on the first line after the struct's opening brace)
* or to a specific field (place it at the end of that field's line). The
* argument is a comma-separated list of attributes. Unrecognized attributes
* cause an error.
*
* Valid node attributes:
*
* - abstract: Abstract types are types that cannot be instantiated but that
* can be supertypes of other types. We track their fields, so that
* subtypes can use them, but we don't emit a node tag, so you can't
* instantiate them.
*
* - custom_copy_equal: Has custom implementations in copyfuncs.c and
* equalfuncs.c.
*
* - custom_read_write: Has custom implementations in outfuncs.c and
* readfuncs.c.
*
* - custom_query_jumble: Has custom implementation in queryjumblefuncs.c.
*
* - no_copy: Does not support copyObject() at all.
*
* - no_equal: Does not support equal() at all.
*
* - no_copy_equal: Shorthand for both no_copy and no_equal.
*
* - no_query_jumble: Does not support JumbleQuery() at all.
*
* - no_read: Does not support nodeRead() at all.
*
* - nodetag_only: Does not support copyObject(), equal(), jumbleQuery()
* outNode() or nodeRead().
*
* - special_read_write: Has special treatment in outNode() and nodeRead().
*
* - nodetag_number(VALUE): assign the specified nodetag number instead of
* an auto-generated number. Typically this would only be used in stable
* branches, to give a newly-added node type a number without breaking ABI
* by changing the numbers of existing node types.
*
* Node types can be supertypes of other types whether or not they are marked
* abstract: if a node struct appears as the first field of another struct
* type, then it is the supertype of that type. The no_copy, no_equal,
* no_query_jumble and no_read node attributes are automatically inherited
* from the supertype. (Notice that nodetag_only does not inherit, so it's
* not quite equivalent to a combination of other attributes.)
*
* Valid node field attributes:
*
* - array_size(OTHERFIELD): This field is a dynamically allocated array with
* size indicated by the mentioned other field. The other field is either a
* scalar or a list, in which case the length of the list is used.
*
* - copy_as(VALUE): In copyObject(), replace the field's value with VALUE.
*
* - copy_as_scalar: In copyObject(), copy the field as a scalar value
* (e.g. a pointer) even if it is a node-type pointer.
*
* - equal_as_scalar: In equal(), compare the field as a scalar value
* even if it is a node-type pointer.
*
* - equal_ignore: Ignore the field for equality.
*
* - equal_ignore_if_zero: Ignore the field for equality if it is zero.
* (Otherwise, compare normally.)
*
* - query_jumble_ignore: Ignore the field for the query jumbling. Note
* that typmod and collation information are usually irrelevant for the
* query jumbling.
*
* - query_jumble_location: Mark the field as a location to track. This is
* only allowed for integer fields that include "location" in their name.
*
* - read_as(VALUE): In nodeRead(), replace the field's value with VALUE.
*
* - read_write_ignore: Ignore the field for read/write. This is only allowed
* if the node type is marked no_read or read_as() is also specified.
*
* - write_only_relids, write_only_nondefault_pathtarget, write_only_req_outer:
* Special handling for Path struct; see there.
*
*/
#define pg_node_attr(...)
/*
* The first field of a node of any type is guaranteed to be the NodeTag.
* Hence the type of any node can be gotten by casting it to Node. Declaring
* a variable to be of Node * (instead of void *) can also facilitate
* debugging.
*/
typedef struct Node
{
NodeTag type;
} Node;
#define nodeTag(nodeptr) (((const Node*)(nodeptr))->type)
/*
* newNode -
* create a new node of the specified size and tag the node with the
* specified tag.
*
* !WARNING!: Avoid using newNode directly. You should be using the
* macro makeNode. eg. to create a Query node, use makeNode(Query)
*
* Note: the size argument should always be a compile-time constant, so the
* apparent risk of multiple evaluation doesn't matter in practice.
*/
#ifdef __GNUC__
/* With GCC, we can use a compound statement within an expression */
#define newNode(size, tag) \
({ Node *_result; \
AssertMacro((size) >= sizeof(Node)); /* need the tag, at least */ \
_result = (Node *) palloc0fast(size); \
_result->type = (tag); \
_result; \
})
#else
/*
* There is no way to dereference the palloc'ed pointer to assign the
* tag, and also return the pointer itself, so we need a holder variable.
* Fortunately, this macro isn't recursive so we just define
* a global variable for this purpose.
*/
extern PGDLLIMPORT Node *newNodeMacroHolder;
#define newNode(size, tag) \
( \
AssertMacro((size) >= sizeof(Node)), /* need the tag, at least */ \
newNodeMacroHolder = (Node *) palloc0fast(size), \
newNodeMacroHolder->type = (tag), \
newNodeMacroHolder \
)
#endif /* __GNUC__ */
#define makeNode(_type_) ((_type_ *) newNode(sizeof(_type_),T_##_type_))
#define NodeSetTag(nodeptr,t) (((Node*)(nodeptr))->type = (t))
#define IsA(nodeptr,_type_) (nodeTag(nodeptr) == T_##_type_)
/*
* castNode(type, ptr) casts ptr to "type *", and if assertions are enabled,
* verifies that the node has the appropriate type (using its nodeTag()).
*
* Use an inline function when assertions are enabled, to avoid multiple
* evaluations of the ptr argument (which could e.g. be a function call).
*/
#ifdef USE_ASSERT_CHECKING
static inline Node *
castNodeImpl(NodeTag type, void *ptr)
{
Assert(ptr == NULL || nodeTag(ptr) == type);
return (Node *) ptr;
}
#define castNode(_type_, nodeptr) ((_type_ *) castNodeImpl(T_##_type_, nodeptr))
#else
#define castNode(_type_, nodeptr) ((_type_ *) (nodeptr))
#endif /* USE_ASSERT_CHECKING */
/* ----------------------------------------------------------------
* extern declarations follow
* ----------------------------------------------------------------
*/
/*
* nodes/{outfuncs.c,print.c}
*/
struct Bitmapset; /* not to include bitmapset.h here */
struct StringInfoData; /* not to include stringinfo.h here */
extern void outNode(struct StringInfoData *str, const void *obj);
extern void outToken(struct StringInfoData *str, const char *s);
extern void outBitmapset(struct StringInfoData *str,
const struct Bitmapset *bms);
extern void outDatum(struct StringInfoData *str, uintptr_t value,
int typlen, bool typbyval);
extern char *nodeToString(const void *obj);
extern char *bmsToString(const struct Bitmapset *bms);
/*
* nodes/{readfuncs.c,read.c}
*/
extern void *stringToNode(const char *str);
#ifdef WRITE_READ_PARSE_PLAN_TREES
extern void *stringToNodeWithLocations(const char *str);
#endif
extern struct Bitmapset *readBitmapset(void);
extern uintptr_t readDatum(bool typbyval);
extern bool *readBoolCols(int numCols);
extern int *readIntCols(int numCols);
extern Oid *readOidCols(int numCols);
extern int16 *readAttrNumberCols(int numCols);
/*
* nodes/copyfuncs.c
*/
extern void *copyObjectImpl(const void *from);
/* cast result back to argument type, if supported by compiler */
#ifdef HAVE_TYPEOF
#define copyObject(obj) ((typeof(obj)) copyObjectImpl(obj))
#else
#define copyObject(obj) copyObjectImpl(obj)
#endif
/*
* nodes/equalfuncs.c
*/
extern bool equal(const void *a, const void *b);
/*
* Typedefs for identifying qualifier selectivities and plan costs as such.
* These are just plain "double"s, but declaring a variable as Selectivity
* or Cost makes the intent more obvious.
*
* These could have gone into plannodes.h or some such, but many files
* depend on them...
*/
typedef double Selectivity; /* fraction of tuples a qualifier will pass */
typedef double Cost; /* execution cost (in page-access units) */
typedef double Cardinality; /* (estimated) number of rows or other integer
* count */
/*
* CmdType -
* enums for type of operation represented by a Query or PlannedStmt
*
* This is needed in both parsenodes.h and plannodes.h, so put it here...
*/
typedef enum CmdType
{
CMD_UNKNOWN,
CMD_SELECT, /* select stmt */
CMD_UPDATE, /* update stmt */
CMD_INSERT, /* insert stmt */
CMD_DELETE, /* delete stmt */
CMD_MERGE, /* merge stmt */
CMD_UTILITY, /* cmds like create, destroy, copy, vacuum,
* etc. */
CMD_NOTHING /* dummy command for instead nothing rules
* with qual */
} CmdType;
/*
* JoinType -
* enums for types of relation joins
*
* JoinType determines the exact semantics of joining two relations using
* a matching qualification. For example, it tells what to do with a tuple
* that has no match in the other relation.
*
* This is needed in both parsenodes.h and plannodes.h, so put it here...
*/
typedef enum JoinType
{
/*
* The canonical kinds of joins according to the SQL JOIN syntax. Only
* these codes can appear in parser output (e.g., JoinExpr nodes).
*/
JOIN_INNER, /* matching tuple pairs only */
JOIN_LEFT, /* pairs + unmatched LHS tuples */
JOIN_FULL, /* pairs + unmatched LHS + unmatched RHS */
JOIN_RIGHT, /* pairs + unmatched RHS tuples */
/*
* Semijoins and anti-semijoins (as defined in relational theory) do not
* appear in the SQL JOIN syntax, but there are standard idioms for
* representing them (e.g., using EXISTS). The planner recognizes these
* cases and converts them to joins. So the planner and executor must
* support these codes. NOTE: in JOIN_SEMI output, it is unspecified
* which matching RHS row is joined to. In JOIN_ANTI output, the row is
* guaranteed to be null-extended.
*/
JOIN_SEMI, /* 1 copy of each LHS row that has match(es) */
JOIN_ANTI, /* 1 copy of each LHS row that has no match */
JOIN_RIGHT_ANTI, /* 1 copy of each RHS row that has no match */
/*
* These codes are used internally in the planner, but are not supported
* by the executor (nor, indeed, by most of the planner).
*/
JOIN_UNIQUE_OUTER, /* LHS path must be made unique */
JOIN_UNIQUE_INNER /* RHS path must be made unique */
/*
* We might need additional join types someday.
*/
} JoinType;
/*
* OUTER joins are those for which pushed-down quals must behave differently
* from the join's own quals. This is in fact everything except INNER and
* SEMI joins. However, this macro must also exclude the JOIN_UNIQUE symbols
* since those are temporary proxies for what will eventually be an INNER
* join.
*
* Note: semijoins are a hybrid case, but we choose to treat them as not
* being outer joins. This is okay principally because the SQL syntax makes
* it impossible to have a pushed-down qual that refers to the inner relation
* of a semijoin; so there is no strong need to distinguish join quals from
* pushed-down quals. This is convenient because for almost all purposes,
* quals attached to a semijoin can be treated the same as innerjoin quals.
*/
#define IS_OUTER_JOIN(jointype) \
(((1 << (jointype)) & \
((1 << JOIN_LEFT) | \
(1 << JOIN_FULL) | \
(1 << JOIN_RIGHT) | \
(1 << JOIN_ANTI) | \
(1 << JOIN_RIGHT_ANTI))) != 0)
/*
* AggStrategy -
* overall execution strategies for Agg plan nodes
*
* This is needed in both pathnodes.h and plannodes.h, so put it here...
*/
typedef enum AggStrategy
{
AGG_PLAIN, /* simple agg across all input rows */
AGG_SORTED, /* grouped agg, input must be sorted */
AGG_HASHED, /* grouped agg, use internal hashtable */
AGG_MIXED /* grouped agg, hash and sort both used */
} AggStrategy;
/*
* AggSplit -
* splitting (partial aggregation) modes for Agg plan nodes
*
* This is needed in both pathnodes.h and plannodes.h, so put it here...
*/
/* Primitive options supported by nodeAgg.c: */
#define AGGSPLITOP_COMBINE 0x01 /* substitute combinefn for transfn */
#define AGGSPLITOP_SKIPFINAL 0x02 /* skip finalfn, return state as-is */
#define AGGSPLITOP_SERIALIZE 0x04 /* apply serialfn to output */
#define AGGSPLITOP_DESERIALIZE 0x08 /* apply deserialfn to input */
/* Supported operating modes (i.e., useful combinations of these options): */
typedef enum AggSplit
{
/* Basic, non-split aggregation: */
AGGSPLIT_SIMPLE = 0,
/* Initial phase of partial aggregation, with serialization: */
AGGSPLIT_INITIAL_SERIAL = AGGSPLITOP_SKIPFINAL | AGGSPLITOP_SERIALIZE,
/* Final phase of partial aggregation, with deserialization: */
AGGSPLIT_FINAL_DESERIAL = AGGSPLITOP_COMBINE | AGGSPLITOP_DESERIALIZE
} AggSplit;
/* Test whether an AggSplit value selects each primitive option: */
#define DO_AGGSPLIT_COMBINE(as) (((as) & AGGSPLITOP_COMBINE) != 0)
#define DO_AGGSPLIT_SKIPFINAL(as) (((as) & AGGSPLITOP_SKIPFINAL) != 0)
#define DO_AGGSPLIT_SERIALIZE(as) (((as) & AGGSPLITOP_SERIALIZE) != 0)
#define DO_AGGSPLIT_DESERIALIZE(as) (((as) & AGGSPLITOP_DESERIALIZE) != 0)
/*
* SetOpCmd and SetOpStrategy -
* overall semantics and execution strategies for SetOp plan nodes
*
* This is needed in both pathnodes.h and plannodes.h, so put it here...
*/
typedef enum SetOpCmd
{
SETOPCMD_INTERSECT,
SETOPCMD_INTERSECT_ALL,
SETOPCMD_EXCEPT,
SETOPCMD_EXCEPT_ALL
} SetOpCmd;
typedef enum SetOpStrategy
{
SETOP_SORTED, /* input must be sorted */
SETOP_HASHED /* use internal hashtable */
} SetOpStrategy;
/*
* OnConflictAction -
* "ON CONFLICT" clause type of query
*
* This is needed in both parsenodes.h and plannodes.h, so put it here...
*/
typedef enum OnConflictAction
{
ONCONFLICT_NONE, /* No "ON CONFLICT" clause */
ONCONFLICT_NOTHING, /* ON CONFLICT ... DO NOTHING */
ONCONFLICT_UPDATE /* ON CONFLICT ... DO UPDATE */
} OnConflictAction;
/*
* LimitOption -
* LIMIT option of query
*
* This is needed in both parsenodes.h and plannodes.h, so put it here...
*/
typedef enum LimitOption
{
LIMIT_OPTION_COUNT, /* FETCH FIRST... ONLY */
LIMIT_OPTION_WITH_TIES, /* FETCH FIRST... WITH TIES */
LIMIT_OPTION_DEFAULT, /* No limit present */
} LimitOption;
#endif /* NODES_H */
|