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postgresql/src/include/funcapi.h
Tom Lane 23a27b039d Widen query numbers-of-tuples-processed counters to uint64. 
This patch widens SPI_processed, EState's es_processed field, PortalData's
portalPos field, FuncCallContext's call_cntr and max_calls fields,
ExecutorRun's count argument, PortalRunFetch's result, and the max number
of rows in a SPITupleTable to uint64, and deals with (I hope) all the
ensuing fallout.  Some of these values were declared uint32 before, and
others "long".

I also removed PortalData's posOverflow field, since that logic seems
pretty useless given that portalPos is now always 64 bits.

The user-visible results are that command tags for SELECT etc will
correctly report tuple counts larger than 4G, as will plpgsql's GET
GET DIAGNOSTICS ... ROW_COUNT command.  Queries processing more tuples
than that are still not exactly the norm, but they're becoming more
common.

Most values associated with FETCH/MOVE distances, such as PortalRun's count
argument and the count argument of most SPI functions that have one, remain
declared as "long".  It's not clear whether it would be worth promoting
those to int64; but it would definitely be a large dollop of additional
API churn on top of this, and it would only help 32-bit platforms which
seem relatively less likely to see any benefit.

Andreas Scherbaum, reviewed by Christian Ullrich, additional hacking by me
2016-03-12 16:05:29 -05:00

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/*-------------------------------------------------------------------------
*
* funcapi.h
* Definitions for functions which return composite type and/or sets
*
* This file must be included by all Postgres modules that either define
* or call FUNCAPI-callable functions or macros.
*
*
* Copyright (c) 2002-2016, PostgreSQL Global Development Group
*
* src/include/funcapi.h
*
*-------------------------------------------------------------------------
*/
#ifndef FUNCAPI_H
#define FUNCAPI_H
#include "fmgr.h"
#include "access/tupdesc.h"
#include "executor/executor.h"
#include "executor/tuptable.h"
/*-------------------------------------------------------------------------
* Support to ease writing Functions returning composite types
*-------------------------------------------------------------------------
*
* This struct holds arrays of individual attribute information
* needed to create a tuple from raw C strings. It also requires
* a copy of the TupleDesc. The information carried here
* is derived from the TupleDesc, but it is stored here to
* avoid redundant cpu cycles on each call to an SRF.
*/
typedef struct AttInMetadata
{
/* full TupleDesc */
TupleDesc tupdesc;
/* array of attribute type input function finfo */
FmgrInfo *attinfuncs;
/* array of attribute type i/o parameter OIDs */
Oid *attioparams;
/* array of attribute typmod */
int32 *atttypmods;
} AttInMetadata;
/*-------------------------------------------------------------------------
* Support struct to ease writing Set Returning Functions (SRFs)
*-------------------------------------------------------------------------
*
* This struct holds function context for Set Returning Functions.
* Use fn_extra to hold a pointer to it across calls
*/
typedef struct FuncCallContext
{
/*
* Number of times we've been called before
*
* call_cntr is initialized to 0 for you by SRF_FIRSTCALL_INIT(), and
* incremented for you every time SRF_RETURN_NEXT() is called.
*/
uint64 call_cntr;
/*
* OPTIONAL maximum number of calls
*
* max_calls is here for convenience only and setting it is optional. If
* not set, you must provide alternative means to know when the function
* is done.
*/
uint64 max_calls;
/*
* OPTIONAL pointer to result slot
*
* This is obsolete and only present for backwards compatibility, viz,
* user-defined SRFs that use the deprecated TupleDescGetSlot().
*/
TupleTableSlot *slot;
/*
* OPTIONAL pointer to miscellaneous user-provided context information
*
* user_fctx is for use as a pointer to your own struct to retain
* arbitrary context information between calls of your function.
*/
void *user_fctx;
/*
* OPTIONAL pointer to struct containing attribute type input metadata
*
* attinmeta is for use when returning tuples (i.e. composite data types)
* and is not used when returning base data types. It is only needed if
* you intend to use BuildTupleFromCStrings() to create the return tuple.
*/
AttInMetadata *attinmeta;
/*
* memory context used for structures that must live for multiple calls
*
* multi_call_memory_ctx is set by SRF_FIRSTCALL_INIT() for you, and used
* by SRF_RETURN_DONE() for cleanup. It is the most appropriate memory
* context for any memory that is to be reused across multiple calls of
* the SRF.
*/
MemoryContext multi_call_memory_ctx;
/*
* OPTIONAL pointer to struct containing tuple description
*
* tuple_desc is for use when returning tuples (i.e. composite data types)
* and is only needed if you are going to build the tuples with
* heap_form_tuple() rather than with BuildTupleFromCStrings(). Note that
* the TupleDesc pointer stored here should usually have been run through
* BlessTupleDesc() first.
*/
TupleDesc tuple_desc;
} FuncCallContext;
/*----------
* Support to ease writing functions returning composite types
*
* External declarations:
* get_call_result_type:
* Given a function's call info record, determine the kind of datatype
* it is supposed to return. If resultTypeId isn't NULL, *resultTypeId
* receives the actual datatype OID (this is mainly useful for scalar
* result types). If resultTupleDesc isn't NULL, *resultTupleDesc
* receives a pointer to a TupleDesc when the result is of a composite
* type, or NULL when it's a scalar result or the rowtype could not be
* determined. NB: the tupledesc should be copied if it is to be
* accessed over a long period.
* get_expr_result_type:
* Given an expression node, return the same info as for
* get_call_result_type. Note: the cases in which rowtypes cannot be
* determined are different from the cases for get_call_result_type.
* get_func_result_type:
* Given only a function's OID, return the same info as for
* get_call_result_type. Note: the cases in which rowtypes cannot be
* determined are different from the cases for get_call_result_type.
* Do *not* use this if you can use one of the others.
*----------
*/
/* Type categories for get_call_result_type and siblings */
typedef enum TypeFuncClass
{
TYPEFUNC_SCALAR, /* scalar result type */
TYPEFUNC_COMPOSITE, /* determinable rowtype result */
TYPEFUNC_RECORD, /* indeterminate rowtype result */
TYPEFUNC_OTHER /* bogus type, eg pseudotype */
} TypeFuncClass;
extern TypeFuncClass get_call_result_type(FunctionCallInfo fcinfo,
Oid *resultTypeId,
TupleDesc *resultTupleDesc);
extern TypeFuncClass get_expr_result_type(Node *expr,
Oid *resultTypeId,
TupleDesc *resultTupleDesc);
extern TypeFuncClass get_func_result_type(Oid functionId,
Oid *resultTypeId,
TupleDesc *resultTupleDesc);
extern bool resolve_polymorphic_argtypes(int numargs, Oid *argtypes,
char *argmodes,
Node *call_expr);
extern int get_func_arg_info(HeapTuple procTup,
Oid **p_argtypes, char ***p_argnames,
char **p_argmodes);
extern int get_func_input_arg_names(Datum proargnames, Datum proargmodes,
char ***arg_names);
extern int get_func_trftypes(HeapTuple procTup, Oid **p_trftypes);
extern char *get_func_result_name(Oid functionId);
extern TupleDesc build_function_result_tupdesc_d(Datum proallargtypes,
Datum proargmodes,
Datum proargnames);
extern TupleDesc build_function_result_tupdesc_t(HeapTuple procTuple);
/*----------
* Support to ease writing functions returning composite types
*
* External declarations:
* TupleDesc BlessTupleDesc(TupleDesc tupdesc) - "Bless" a completed tuple
* descriptor so that it can be used to return properly labeled tuples.
* You need to call this if you are going to use heap_form_tuple directly.
* TupleDescGetAttInMetadata does it for you, however, so no need to call
* it if you call TupleDescGetAttInMetadata.
* AttInMetadata *TupleDescGetAttInMetadata(TupleDesc tupdesc) - Build an
* AttInMetadata struct based on the given TupleDesc. AttInMetadata can
* be used in conjunction with C strings to produce a properly formed
* tuple.
* HeapTuple BuildTupleFromCStrings(AttInMetadata *attinmeta, char **values) -
* build a HeapTuple given user data in C string form. values is an array
* of C strings, one for each attribute of the return tuple.
* Datum HeapTupleHeaderGetDatum(HeapTupleHeader tuple) - convert a
* HeapTupleHeader to a Datum.
*
* Macro declarations:
* HeapTupleGetDatum(HeapTuple tuple) - convert a HeapTuple to a Datum.
*
* Obsolete routines and macros:
* TupleDesc RelationNameGetTupleDesc(const char *relname) - Use to get a
* TupleDesc based on a named relation.
* TupleDesc TypeGetTupleDesc(Oid typeoid, List *colaliases) - Use to get a
* TupleDesc based on a type OID.
* TupleTableSlot *TupleDescGetSlot(TupleDesc tupdesc) - Builds a
* TupleTableSlot, which is not needed anymore.
* TupleGetDatum(TupleTableSlot *slot, HeapTuple tuple) - get a Datum
* given a tuple and a slot.
*----------
*/
#define HeapTupleGetDatum(tuple) HeapTupleHeaderGetDatum((tuple)->t_data)
/* obsolete version of above */
#define TupleGetDatum(_slot, _tuple) HeapTupleGetDatum(_tuple)
extern TupleDesc RelationNameGetTupleDesc(const char *relname);
extern TupleDesc TypeGetTupleDesc(Oid typeoid, List *colaliases);
/* from execTuples.c */
extern TupleDesc BlessTupleDesc(TupleDesc tupdesc);
extern AttInMetadata *TupleDescGetAttInMetadata(TupleDesc tupdesc);
extern HeapTuple BuildTupleFromCStrings(AttInMetadata *attinmeta, char **values);
extern Datum HeapTupleHeaderGetDatum(HeapTupleHeader tuple);
extern TupleTableSlot *TupleDescGetSlot(TupleDesc tupdesc);
/*----------
* Support for Set Returning Functions (SRFs)
*
* The basic API for SRFs looks something like:
*
* Datum
* my_Set_Returning_Function(PG_FUNCTION_ARGS)
* {
* FuncCallContext *funcctx;
* Datum result;
* MemoryContext oldcontext;
* <user defined declarations>
*
* if (SRF_IS_FIRSTCALL())
* {
* funcctx = SRF_FIRSTCALL_INIT();
* // switch context when allocating stuff to be used in later calls
* oldcontext = MemoryContextSwitchTo(funcctx->multi_call_memory_ctx);
* <user defined code>
* <if returning composite>
* <build TupleDesc, and perhaps AttInMetaData>
* <endif returning composite>
* <user defined code>
* // return to original context when allocating transient memory
* MemoryContextSwitchTo(oldcontext);
* }
* <user defined code>
* funcctx = SRF_PERCALL_SETUP();
* <user defined code>
*
* if (funcctx->call_cntr < funcctx->max_calls)
* {
* <user defined code>
* <obtain result Datum>
* SRF_RETURN_NEXT(funcctx, result);
* }
* else
* SRF_RETURN_DONE(funcctx);
* }
*
*----------
*/
/* from funcapi.c */
extern FuncCallContext *init_MultiFuncCall(PG_FUNCTION_ARGS);
extern FuncCallContext *per_MultiFuncCall(PG_FUNCTION_ARGS);
extern void end_MultiFuncCall(PG_FUNCTION_ARGS, FuncCallContext *funcctx);
#define SRF_IS_FIRSTCALL() (fcinfo->flinfo->fn_extra == NULL)
#define SRF_FIRSTCALL_INIT() init_MultiFuncCall(fcinfo)
#define SRF_PERCALL_SETUP() per_MultiFuncCall(fcinfo)
#define SRF_RETURN_NEXT(_funcctx, _result) \
do { \
ReturnSetInfo *rsi; \
(_funcctx)->call_cntr++; \
rsi = (ReturnSetInfo *) fcinfo->resultinfo; \
rsi->isDone = ExprMultipleResult; \
PG_RETURN_DATUM(_result); \
} while (0)
#define SRF_RETURN_NEXT_NULL(_funcctx) \
do { \
ReturnSetInfo *rsi; \
(_funcctx)->call_cntr++; \
rsi = (ReturnSetInfo *) fcinfo->resultinfo; \
rsi->isDone = ExprMultipleResult; \
PG_RETURN_NULL(); \
} while (0)
#define SRF_RETURN_DONE(_funcctx) \
do { \
ReturnSetInfo *rsi; \
end_MultiFuncCall(fcinfo, _funcctx); \
rsi = (ReturnSetInfo *) fcinfo->resultinfo; \
rsi->isDone = ExprEndResult; \
PG_RETURN_NULL(); \
} while (0)
#endif /* FUNCAPI_H */
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