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|
/*-------------------------------------------------------------------------
*
* explain.c
* Explain query execution plans
*
* Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group
* Portions Copyright (c) 1994-5, Regents of the University of California
*
* IDENTIFICATION
* src/backend/commands/explain.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/xact.h"
#include "catalog/pg_type.h"
#include "commands/createas.h"
#include "commands/defrem.h"
#include "commands/prepare.h"
#include "executor/nodeHash.h"
#include "foreign/fdwapi.h"
#include "jit/jit.h"
#include "nodes/extensible.h"
#include "nodes/makefuncs.h"
#include "nodes/nodeFuncs.h"
#include "parser/analyze.h"
#include "parser/parsetree.h"
#include "rewrite/rewriteHandler.h"
#include "storage/bufmgr.h"
#include "tcop/tcopprot.h"
#include "utils/builtins.h"
#include "utils/guc_tables.h"
#include "utils/json.h"
#include "utils/lsyscache.h"
#include "utils/rel.h"
#include "utils/ruleutils.h"
#include "utils/snapmgr.h"
#include "utils/tuplesort.h"
#include "utils/typcache.h"
#include "utils/xml.h"
/* Hook for plugins to get control in ExplainOneQuery() */
__thread ExplainOneQuery_hook_type ExplainOneQuery_hook = NULL;
/* Hook for plugins to get control in explain_get_index_name() */
__thread explain_get_index_name_hook_type explain_get_index_name_hook = NULL;
/* OR-able flags for ExplainXMLTag() */
#define X_OPENING 0
#define X_CLOSING 1
#define X_CLOSE_IMMEDIATE 2
#define X_NOWHITESPACE 4
static void ExplainOneQuery(Query *query, int cursorOptions,
IntoClause *into, ExplainState *es,
const char *queryString, ParamListInfo params,
QueryEnvironment *queryEnv);
static void ExplainPrintJIT(ExplainState *es, int jit_flags,
JitInstrumentation *ji);
static void report_triggers(ResultRelInfo *rInfo, bool show_relname,
ExplainState *es);
static double elapsed_time(instr_time *starttime);
static bool ExplainPreScanNode(PlanState *planstate, Bitmapset **rels_used);
static void ExplainNode(PlanState *planstate, List *ancestors,
const char *relationship, const char *plan_name,
ExplainState *es);
static void show_plan_tlist(PlanState *planstate, List *ancestors,
ExplainState *es);
static void show_expression(Node *node, const char *qlabel,
PlanState *planstate, List *ancestors,
bool useprefix, ExplainState *es);
static void show_qual(List *qual, const char *qlabel,
PlanState *planstate, List *ancestors,
bool useprefix, ExplainState *es);
static void show_scan_qual(List *qual, const char *qlabel,
PlanState *planstate, List *ancestors,
ExplainState *es);
static void show_upper_qual(List *qual, const char *qlabel,
PlanState *planstate, List *ancestors,
ExplainState *es);
static void show_sort_keys(SortState *sortstate, List *ancestors,
ExplainState *es);
static void show_incremental_sort_keys(IncrementalSortState *incrsortstate,
List *ancestors, ExplainState *es);
static void show_merge_append_keys(MergeAppendState *mstate, List *ancestors,
ExplainState *es);
static void show_agg_keys(AggState *astate, List *ancestors,
ExplainState *es);
static void show_grouping_sets(PlanState *planstate, Agg *agg,
List *ancestors, ExplainState *es);
static void show_grouping_set_keys(PlanState *planstate,
Agg *aggnode, Sort *sortnode,
List *context, bool useprefix,
List *ancestors, ExplainState *es);
static void show_group_keys(GroupState *gstate, List *ancestors,
ExplainState *es);
static void show_sort_group_keys(PlanState *planstate, const char *qlabel,
int nkeys, int nPresortedKeys, AttrNumber *keycols,
Oid *sortOperators, Oid *collations, bool *nullsFirst,
List *ancestors, ExplainState *es);
static void show_sortorder_options(StringInfo buf, Node *sortexpr,
Oid sortOperator, Oid collation, bool nullsFirst);
static void show_tablesample(TableSampleClause *tsc, PlanState *planstate,
List *ancestors, ExplainState *es);
static void show_sort_info(SortState *sortstate, ExplainState *es);
static void show_incremental_sort_info(IncrementalSortState *incrsortstate,
ExplainState *es);
static void show_hash_info(HashState *hashstate, ExplainState *es);
static void show_memoize_info(MemoizeState *mstate, List *ancestors,
ExplainState *es);
static void show_hashagg_info(AggState *aggstate, ExplainState *es);
static void show_tidbitmap_info(BitmapHeapScanState *planstate,
ExplainState *es);
static void show_instrumentation_count(const char *qlabel, int which,
PlanState *planstate, ExplainState *es);
static void show_foreignscan_info(ForeignScanState *fsstate, ExplainState *es);
static void show_eval_params(Bitmapset *bms_params, ExplainState *es);
static const char *explain_get_index_name(Oid indexId);
static void show_buffer_usage(ExplainState *es, const BufferUsage *usage,
bool planning);
static void show_wal_usage(ExplainState *es, const WalUsage *usage);
static void ExplainIndexScanDetails(Oid indexid, ScanDirection indexorderdir,
ExplainState *es);
static void ExplainScanTarget(Scan *plan, ExplainState *es);
static void ExplainModifyTarget(ModifyTable *plan, ExplainState *es);
static void ExplainTargetRel(Plan *plan, Index rti, ExplainState *es);
static void show_modifytable_info(ModifyTableState *mtstate, List *ancestors,
ExplainState *es);
static void ExplainMemberNodes(PlanState **planstates, int nplans,
List *ancestors, ExplainState *es);
static void ExplainMissingMembers(int nplans, int nchildren, ExplainState *es);
static void ExplainSubPlans(List *plans, List *ancestors,
const char *relationship, ExplainState *es);
static void ExplainCustomChildren(CustomScanState *css,
List *ancestors, ExplainState *es);
static ExplainWorkersState *ExplainCreateWorkersState(int num_workers);
static void ExplainOpenWorker(int n, ExplainState *es);
static void ExplainCloseWorker(int n, ExplainState *es);
static void ExplainFlushWorkersState(ExplainState *es);
static void ExplainProperty(const char *qlabel, const char *unit,
const char *value, bool numeric, ExplainState *es);
static void ExplainOpenSetAsideGroup(const char *objtype, const char *labelname,
bool labeled, int depth, ExplainState *es);
static void ExplainSaveGroup(ExplainState *es, int depth, int *state_save);
static void ExplainRestoreGroup(ExplainState *es, int depth, int *state_save);
static void ExplainDummyGroup(const char *objtype, const char *labelname,
ExplainState *es);
static void ExplainXMLTag(const char *tagname, int flags, ExplainState *es);
static void ExplainIndentText(ExplainState *es);
static void ExplainJSONLineEnding(ExplainState *es);
static void ExplainYAMLLineStarting(ExplainState *es);
static void escape_yaml(StringInfo buf, const char *str);
/*
* ExplainQuery -
* execute an EXPLAIN command
*/
void
ExplainQuery(ParseState *pstate, ExplainStmt *stmt,
ParamListInfo params, DestReceiver *dest)
{
ExplainState *es = NewExplainState();
TupOutputState *tstate;
JumbleState *jstate = NULL;
Query *query;
List *rewritten;
ListCell *lc;
bool timing_set = false;
bool summary_set = false;
/* Parse options list. */
foreach(lc, stmt->options)
{
DefElem *opt = (DefElem *) lfirst(lc);
if (strcmp(opt->defname, "analyze") == 0)
es->analyze = defGetBoolean(opt);
else if (strcmp(opt->defname, "verbose") == 0)
es->verbose = defGetBoolean(opt);
else if (strcmp(opt->defname, "costs") == 0)
es->costs = defGetBoolean(opt);
else if (strcmp(opt->defname, "buffers") == 0)
es->buffers = defGetBoolean(opt);
else if (strcmp(opt->defname, "wal") == 0)
es->wal = defGetBoolean(opt);
else if (strcmp(opt->defname, "settings") == 0)
es->settings = defGetBoolean(opt);
else if (strcmp(opt->defname, "generic_plan") == 0)
es->generic = defGetBoolean(opt);
else if (strcmp(opt->defname, "timing") == 0)
{
timing_set = true;
es->timing = defGetBoolean(opt);
}
else if (strcmp(opt->defname, "summary") == 0)
{
summary_set = true;
es->summary = defGetBoolean(opt);
}
else if (strcmp(opt->defname, "format") == 0)
{
char *p = defGetString(opt);
if (strcmp(p, "text") == 0)
es->format = EXPLAIN_FORMAT_TEXT;
else if (strcmp(p, "xml") == 0)
es->format = EXPLAIN_FORMAT_XML;
else if (strcmp(p, "json") == 0)
es->format = EXPLAIN_FORMAT_JSON;
else if (strcmp(p, "yaml") == 0)
es->format = EXPLAIN_FORMAT_YAML;
else
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("unrecognized value for EXPLAIN option \"%s\": \"%s\"",
opt->defname, p),
parser_errposition(pstate, opt->location)));
}
else
ereport(ERROR,
(errcode(ERRCODE_SYNTAX_ERROR),
errmsg("unrecognized EXPLAIN option \"%s\"",
opt->defname),
parser_errposition(pstate, opt->location)));
}
/* check that WAL is used with EXPLAIN ANALYZE */
if (es->wal && !es->analyze)
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("EXPLAIN option WAL requires ANALYZE")));
/* if the timing was not set explicitly, set default value */
es->timing = (timing_set) ? es->timing : es->analyze;
/* check that timing is used with EXPLAIN ANALYZE */
if (es->timing && !es->analyze)
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("EXPLAIN option TIMING requires ANALYZE")));
/* check that GENERIC_PLAN is not used with EXPLAIN ANALYZE */
if (es->generic && es->analyze)
ereport(ERROR,
(errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("EXPLAIN options ANALYZE and GENERIC_PLAN cannot be used together")));
/* if the summary was not set explicitly, set default value */
es->summary = (summary_set) ? es->summary : es->analyze;
query = castNode(Query, stmt->query);
if (IsQueryIdEnabled())
jstate = JumbleQuery(query);
if (post_parse_analyze_hook)
(*post_parse_analyze_hook) (pstate, query, jstate);
/*
* Parse analysis was done already, but we still have to run the rule
* rewriter. We do not do AcquireRewriteLocks: we assume the query either
* came straight from the parser, or suitable locks were acquired by
* plancache.c.
*/
rewritten = QueryRewrite(castNode(Query, stmt->query));
/* emit opening boilerplate */
ExplainBeginOutput(es);
if (rewritten == NIL)
{
/*
* In the case of an INSTEAD NOTHING, tell at least that. But in
* non-text format, the output is delimited, so this isn't necessary.
*/
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfoString(es->str, "Query rewrites to nothing\n");
}
else
{
ListCell *l;
/* Explain every plan */
foreach(l, rewritten)
{
ExplainOneQuery(lfirst_node(Query, l),
CURSOR_OPT_PARALLEL_OK, NULL, es,
pstate->p_sourcetext, params, pstate->p_queryEnv);
/* Separate plans with an appropriate separator */
if (lnext(rewritten, l) != NULL)
ExplainSeparatePlans(es);
}
}
/* emit closing boilerplate */
ExplainEndOutput(es);
Assert(es->indent == 0);
/* output tuples */
tstate = begin_tup_output_tupdesc(dest, ExplainResultDesc(stmt),
&TTSOpsVirtual);
if (es->format == EXPLAIN_FORMAT_TEXT)
do_text_output_multiline(tstate, es->str->data);
else
do_text_output_oneline(tstate, es->str->data);
end_tup_output(tstate);
pfree(es->str->data);
}
/*
* Create a new ExplainState struct initialized with default options.
*/
ExplainState *
NewExplainState(void)
{
ExplainState *es = (ExplainState *) palloc0(sizeof(ExplainState));
/* Set default options (most fields can be left as zeroes). */
es->costs = true;
/* Prepare output buffer. */
es->str = makeStringInfo();
return es;
}
/*
* ExplainResultDesc -
* construct the result tupledesc for an EXPLAIN
*/
TupleDesc
ExplainResultDesc(ExplainStmt *stmt)
{
TupleDesc tupdesc;
ListCell *lc;
Oid result_type = TEXTOID;
/* Check for XML format option */
foreach(lc, stmt->options)
{
DefElem *opt = (DefElem *) lfirst(lc);
if (strcmp(opt->defname, "format") == 0)
{
char *p = defGetString(opt);
if (strcmp(p, "xml") == 0)
result_type = XMLOID;
else if (strcmp(p, "json") == 0)
result_type = JSONOID;
else
result_type = TEXTOID;
/* don't "break", as ExplainQuery will use the last value */
}
}
/* Need a tuple descriptor representing a single TEXT or XML column */
tupdesc = CreateTemplateTupleDesc(1);
TupleDescInitEntry(tupdesc, (AttrNumber) 1, "QUERY PLAN",
result_type, -1, 0);
return tupdesc;
}
/*
* ExplainOneQuery -
* print out the execution plan for one Query
*
* "into" is NULL unless we are explaining the contents of a CreateTableAsStmt.
*/
static void
ExplainOneQuery(Query *query, int cursorOptions,
IntoClause *into, ExplainState *es,
const char *queryString, ParamListInfo params,
QueryEnvironment *queryEnv)
{
/* planner will not cope with utility statements */
if (query->commandType == CMD_UTILITY)
{
ExplainOneUtility(query->utilityStmt, into, es, queryString, params,
queryEnv);
return;
}
/* if an advisor plugin is present, let it manage things */
if (ExplainOneQuery_hook)
(*ExplainOneQuery_hook) (query, cursorOptions, into, es,
queryString, params, queryEnv);
else
{
PlannedStmt *plan;
instr_time planstart,
planduration;
BufferUsage bufusage_start,
bufusage;
if (es->buffers)
bufusage_start = pgBufferUsage;
INSTR_TIME_SET_CURRENT(planstart);
/* plan the query */
plan = pg_plan_query(query, queryString, cursorOptions, params);
INSTR_TIME_SET_CURRENT(planduration);
INSTR_TIME_SUBTRACT(planduration, planstart);
/* calc differences of buffer counters. */
if (es->buffers)
{
memset(&bufusage, 0, sizeof(BufferUsage));
BufferUsageAccumDiff(&bufusage, &pgBufferUsage, &bufusage_start);
}
/* run it (if needed) and produce output */
ExplainOnePlan(plan, into, es, queryString, params, queryEnv,
&planduration, (es->buffers ? &bufusage : NULL));
}
}
/*
* ExplainOneUtility -
* print out the execution plan for one utility statement
* (In general, utility statements don't have plans, but there are some
* we treat as special cases)
*
* "into" is NULL unless we are explaining the contents of a CreateTableAsStmt.
*
* This is exported because it's called back from prepare.c in the
* EXPLAIN EXECUTE case. In that case, we'll be dealing with a statement
* that's in the plan cache, so we have to ensure we don't modify it.
*/
void
ExplainOneUtility(Node *utilityStmt, IntoClause *into, ExplainState *es,
const char *queryString, ParamListInfo params,
QueryEnvironment *queryEnv)
{
if (utilityStmt == NULL)
return;
if (IsA(utilityStmt, CreateTableAsStmt))
{
/*
* We have to rewrite the contained SELECT and then pass it back to
* ExplainOneQuery. Copy to be safe in the EXPLAIN EXECUTE case.
*/
CreateTableAsStmt *ctas = (CreateTableAsStmt *) utilityStmt;
List *rewritten;
/*
* Check if the relation exists or not. This is done at this stage to
* avoid query planning or execution.
*/
if (CreateTableAsRelExists(ctas))
{
if (ctas->objtype == OBJECT_TABLE)
ExplainDummyGroup("CREATE TABLE AS", NULL, es);
else if (ctas->objtype == OBJECT_MATVIEW)
ExplainDummyGroup("CREATE MATERIALIZED VIEW", NULL, es);
else
elog(ERROR, "unexpected object type: %d",
(int) ctas->objtype);
return;
}
rewritten = QueryRewrite(castNode(Query, copyObject(ctas->query)));
Assert(list_length(rewritten) == 1);
ExplainOneQuery(linitial_node(Query, rewritten),
CURSOR_OPT_PARALLEL_OK, ctas->into, es,
queryString, params, queryEnv);
}
else if (IsA(utilityStmt, DeclareCursorStmt))
{
/*
* Likewise for DECLARE CURSOR.
*
* Notice that if you say EXPLAIN ANALYZE DECLARE CURSOR then we'll
* actually run the query. This is different from pre-8.3 behavior
* but seems more useful than not running the query. No cursor will
* be created, however.
*/
DeclareCursorStmt *dcs = (DeclareCursorStmt *) utilityStmt;
List *rewritten;
rewritten = QueryRewrite(castNode(Query, copyObject(dcs->query)));
Assert(list_length(rewritten) == 1);
ExplainOneQuery(linitial_node(Query, rewritten),
dcs->options, NULL, es,
queryString, params, queryEnv);
}
else if (IsA(utilityStmt, ExecuteStmt))
ExplainExecuteQuery((ExecuteStmt *) utilityStmt, into, es,
queryString, params, queryEnv);
else if (IsA(utilityStmt, NotifyStmt))
{
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfoString(es->str, "NOTIFY\n");
else
ExplainDummyGroup("Notify", NULL, es);
}
else
{
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfoString(es->str,
"Utility statements have no plan structure\n");
else
ExplainDummyGroup("Utility Statement", NULL, es);
}
}
/*
* ExplainOnePlan -
* given a planned query, execute it if needed, and then print
* EXPLAIN output
*
* "into" is NULL unless we are explaining the contents of a CreateTableAsStmt,
* in which case executing the query should result in creating that table.
*
* This is exported because it's called back from prepare.c in the
* EXPLAIN EXECUTE case, and because an index advisor plugin would need
* to call it.
*/
void
ExplainOnePlan(PlannedStmt *plannedstmt, IntoClause *into, ExplainState *es,
const char *queryString, ParamListInfo params,
QueryEnvironment *queryEnv, const instr_time *planduration,
const BufferUsage *bufusage)
{
DestReceiver *dest;
QueryDesc *queryDesc;
instr_time starttime;
double totaltime = 0;
int eflags;
int instrument_option = 0;
Assert(plannedstmt->commandType != CMD_UTILITY);
if (es->analyze && es->timing)
instrument_option |= INSTRUMENT_TIMER;
else if (es->analyze)
instrument_option |= INSTRUMENT_ROWS;
if (es->buffers)
instrument_option |= INSTRUMENT_BUFFERS;
if (es->wal)
instrument_option |= INSTRUMENT_WAL;
/*
* We always collect timing for the entire statement, even when node-level
* timing is off, so we don't look at es->timing here. (We could skip
* this if !es->summary, but it's hardly worth the complication.)
*/
INSTR_TIME_SET_CURRENT(starttime);
/*
* Use a snapshot with an updated command ID to ensure this query sees
* results of any previously executed queries.
*/
PushCopiedSnapshot(GetActiveSnapshot());
UpdateActiveSnapshotCommandId();
/*
* Normally we discard the query's output, but if explaining CREATE TABLE
* AS, we'd better use the appropriate tuple receiver.
*/
if (into)
dest = CreateIntoRelDestReceiver(into);
else
dest = None_Receiver;
/* Create a QueryDesc for the query */
queryDesc = CreateQueryDesc(plannedstmt, queryString,
GetActiveSnapshot(), InvalidSnapshot,
dest, params, queryEnv, instrument_option);
/* Select execution options */
if (es->analyze)
eflags = 0; /* default run-to-completion flags */
else
eflags = EXEC_FLAG_EXPLAIN_ONLY;
if (es->generic)
eflags |= EXEC_FLAG_EXPLAIN_GENERIC;
if (into)
eflags |= GetIntoRelEFlags(into);
/* call ExecutorStart to prepare the plan for execution */
ExecutorStart(queryDesc, eflags);
/* Execute the plan for statistics if asked for */
if (es->analyze)
{
ScanDirection dir;
/* EXPLAIN ANALYZE CREATE TABLE AS WITH NO DATA is weird */
if (into && into->skipData)
dir = NoMovementScanDirection;
else
dir = ForwardScanDirection;
/* run the plan */
ExecutorRun(queryDesc, dir, 0, true);
/* run cleanup too */
ExecutorFinish(queryDesc);
/* We can't run ExecutorEnd 'till we're done printing the stats... */
totaltime += elapsed_time(&starttime);
}
ExplainOpenGroup("Query", NULL, true, es);
/* Create textual dump of plan tree */
ExplainPrintPlan(es, queryDesc);
/* Show buffer usage in planning */
if (bufusage)
{
ExplainOpenGroup("Planning", "Planning", true, es);
show_buffer_usage(es, bufusage, true);
ExplainCloseGroup("Planning", "Planning", true, es);
}
if (es->summary && planduration)
{
double plantime = INSTR_TIME_GET_DOUBLE(*planduration);
ExplainPropertyFloat("Planning Time", "ms", 1000.0 * plantime, 3, es);
}
/* Print info about runtime of triggers */
if (es->analyze)
ExplainPrintTriggers(es, queryDesc);
/*
* Print info about JITing. Tied to es->costs because we don't want to
* display this in regression tests, as it'd cause output differences
* depending on build options. Might want to separate that out from COSTS
* at a later stage.
*/
if (es->costs)
ExplainPrintJITSummary(es, queryDesc);
/*
* Close down the query and free resources. Include time for this in the
* total execution time (although it should be pretty minimal).
*/
INSTR_TIME_SET_CURRENT(starttime);
ExecutorEnd(queryDesc);
FreeQueryDesc(queryDesc);
PopActiveSnapshot();
/* We need a CCI just in case query expanded to multiple plans */
if (es->analyze)
CommandCounterIncrement();
totaltime += elapsed_time(&starttime);
/*
* We only report execution time if we actually ran the query (that is,
* the user specified ANALYZE), and if summary reporting is enabled (the
* user can set SUMMARY OFF to not have the timing information included in
* the output). By default, ANALYZE sets SUMMARY to true.
*/
if (es->summary && es->analyze)
ExplainPropertyFloat("Execution Time", "ms", 1000.0 * totaltime, 3,
es);
ExplainCloseGroup("Query", NULL, true, es);
}
/*
* ExplainPrintSettings -
* Print summary of modified settings affecting query planning.
*/
static void
ExplainPrintSettings(ExplainState *es)
{
int num;
struct config_generic **gucs;
/* bail out if information about settings not requested */
if (!es->settings)
return;
/* request an array of relevant settings */
gucs = get_explain_guc_options(&num);
if (es->format != EXPLAIN_FORMAT_TEXT)
{
ExplainOpenGroup("Settings", "Settings", true, es);
for (int i = 0; i < num; i++)
{
char *setting;
struct config_generic *conf = gucs[i];
setting = GetConfigOptionByName(conf->name, NULL, true);
ExplainPropertyText(conf->name, setting, es);
}
ExplainCloseGroup("Settings", "Settings", true, es);
}
else
{
StringInfoData str;
/* In TEXT mode, print nothing if there are no options */
if (num <= 0)
return;
initStringInfo(&str);
for (int i = 0; i < num; i++)
{
char *setting;
struct config_generic *conf = gucs[i];
if (i > 0)
appendStringInfoString(&str, ", ");
setting = GetConfigOptionByName(conf->name, NULL, true);
if (setting)
appendStringInfo(&str, "%s = '%s'", conf->name, setting);
else
appendStringInfo(&str, "%s = NULL", conf->name);
}
ExplainPropertyText("Settings", str.data, es);
}
}
/*
* ExplainPrintPlan -
* convert a QueryDesc's plan tree to text and append it to es->str
*
* The caller should have set up the options fields of *es, as well as
* initializing the output buffer es->str. Also, output formatting state
* such as the indent level is assumed valid. Plan-tree-specific fields
* in *es are initialized here.
*
* NB: will not work on utility statements
*/
void
ExplainPrintPlan(ExplainState *es, QueryDesc *queryDesc)
{
Bitmapset *rels_used = NULL;
PlanState *ps;
/* Set up ExplainState fields associated with this plan tree */
Assert(queryDesc->plannedstmt != NULL);
es->pstmt = queryDesc->plannedstmt;
es->rtable = queryDesc->plannedstmt->rtable;
ExplainPreScanNode(queryDesc->planstate, &rels_used);
es->rtable_names = select_rtable_names_for_explain(es->rtable, rels_used);
es->deparse_cxt = deparse_context_for_plan_tree(queryDesc->plannedstmt,
es->rtable_names);
es->printed_subplans = NULL;
/*
* Sometimes we mark a Gather node as "invisible", which means that it's
* not to be displayed in EXPLAIN output. The purpose of this is to allow
* running regression tests with debug_parallel_query=regress to get the
* same results as running the same tests with debug_parallel_query=off.
* Such marking is currently only supported on a Gather at the top of the
* plan. We skip that node, and we must also hide per-worker detail data
* further down in the plan tree.
*/
ps = queryDesc->planstate;
if (IsA(ps, GatherState) && ((Gather *) ps->plan)->invisible)
{
ps = outerPlanState(ps);
es->hide_workers = true;
}
ExplainNode(ps, NIL, NULL, NULL, es);
/*
* If requested, include information about GUC parameters with values that
* don't match the built-in defaults.
*/
ExplainPrintSettings(es);
/*
* COMPUTE_QUERY_ID_REGRESS means COMPUTE_QUERY_ID_AUTO, but we don't show
* the queryid in any of the EXPLAIN plans to keep stable the results
* generated by regression test suites.
*/
if (es->verbose && queryDesc->plannedstmt->queryId != UINT64CONST(0) &&
compute_query_id != COMPUTE_QUERY_ID_REGRESS)
{
/*
* Output the queryid as an int64 rather than a uint64 so we match
* what would be seen in the BIGINT pg_stat_statements.queryid column.
*/
ExplainPropertyInteger("Query Identifier", NULL, (int64)
queryDesc->plannedstmt->queryId, es);
}
}
/*
* ExplainPrintTriggers -
* convert a QueryDesc's trigger statistics to text and append it to
* es->str
*
* The caller should have set up the options fields of *es, as well as
* initializing the output buffer es->str. Other fields in *es are
* initialized here.
*/
void
ExplainPrintTriggers(ExplainState *es, QueryDesc *queryDesc)
{
ResultRelInfo *rInfo;
bool show_relname;
List *resultrels;
List *routerels;
List *targrels;
ListCell *l;
resultrels = queryDesc->estate->es_opened_result_relations;
routerels = queryDesc->estate->es_tuple_routing_result_relations;
targrels = queryDesc->estate->es_trig_target_relations;
ExplainOpenGroup("Triggers", "Triggers", false, es);
show_relname = (list_length(resultrels) > 1 ||
routerels != NIL || targrels != NIL);
foreach(l, resultrels)
{
rInfo = (ResultRelInfo *) lfirst(l);
report_triggers(rInfo, show_relname, es);
}
foreach(l, routerels)
{
rInfo = (ResultRelInfo *) lfirst(l);
report_triggers(rInfo, show_relname, es);
}
foreach(l, targrels)
{
rInfo = (ResultRelInfo *) lfirst(l);
report_triggers(rInfo, show_relname, es);
}
ExplainCloseGroup("Triggers", "Triggers", false, es);
}
/*
* ExplainPrintJITSummary -
* Print summarized JIT instrumentation from leader and workers
*/
void
ExplainPrintJITSummary(ExplainState *es, QueryDesc *queryDesc)
{
JitInstrumentation ji = {0};
if (!(queryDesc->estate->es_jit_flags & PGJIT_PERFORM))
return;
/*
* Work with a copy instead of modifying the leader state, since this
* function may be called twice
*/
if (queryDesc->estate->es_jit)
InstrJitAgg(&ji, &queryDesc->estate->es_jit->instr);
/* If this process has done JIT in parallel workers, merge stats */
if (queryDesc->estate->es_jit_worker_instr)
InstrJitAgg(&ji, queryDesc->estate->es_jit_worker_instr);
ExplainPrintJIT(es, queryDesc->estate->es_jit_flags, &ji);
}
/*
* ExplainPrintJIT -
* Append information about JITing to es->str.
*/
static void
ExplainPrintJIT(ExplainState *es, int jit_flags, JitInstrumentation *ji)
{
instr_time total_time;
/* don't print information if no JITing happened */
if (!ji || ji->created_functions == 0)
return;
/* calculate total time */
INSTR_TIME_SET_ZERO(total_time);
INSTR_TIME_ADD(total_time, ji->generation_counter);
INSTR_TIME_ADD(total_time, ji->inlining_counter);
INSTR_TIME_ADD(total_time, ji->optimization_counter);
INSTR_TIME_ADD(total_time, ji->emission_counter);
ExplainOpenGroup("JIT", "JIT", true, es);
/* for higher density, open code the text output format */
if (es->format == EXPLAIN_FORMAT_TEXT)
{
ExplainIndentText(es);
appendStringInfoString(es->str, "JIT:\n");
es->indent++;
ExplainPropertyInteger("Functions", NULL, ji->created_functions, es);
ExplainIndentText(es);
appendStringInfo(es->str, "Options: %s %s, %s %s, %s %s, %s %s\n",
"Inlining", jit_flags & PGJIT_INLINE ? "true" : "false",
"Optimization", jit_flags & PGJIT_OPT3 ? "true" : "false",
"Expressions", jit_flags & PGJIT_EXPR ? "true" : "false",
"Deforming", jit_flags & PGJIT_DEFORM ? "true" : "false");
if (es->analyze && es->timing)
{
ExplainIndentText(es);
appendStringInfo(es->str,
"Timing: %s %.3f ms, %s %.3f ms, %s %.3f ms, %s %.3f ms, %s %.3f ms\n",
"Generation", 1000.0 * INSTR_TIME_GET_DOUBLE(ji->generation_counter),
"Inlining", 1000.0 * INSTR_TIME_GET_DOUBLE(ji->inlining_counter),
"Optimization", 1000.0 * INSTR_TIME_GET_DOUBLE(ji->optimization_counter),
"Emission", 1000.0 * INSTR_TIME_GET_DOUBLE(ji->emission_counter),
"Total", 1000.0 * INSTR_TIME_GET_DOUBLE(total_time));
}
es->indent--;
}
else
{
ExplainPropertyInteger("Functions", NULL, ji->created_functions, es);
ExplainOpenGroup("Options", "Options", true, es);
ExplainPropertyBool("Inlining", jit_flags & PGJIT_INLINE, es);
ExplainPropertyBool("Optimization", jit_flags & PGJIT_OPT3, es);
ExplainPropertyBool("Expressions", jit_flags & PGJIT_EXPR, es);
ExplainPropertyBool("Deforming", jit_flags & PGJIT_DEFORM, es);
ExplainCloseGroup("Options", "Options", true, es);
if (es->analyze && es->timing)
{
ExplainOpenGroup("Timing", "Timing", true, es);
ExplainPropertyFloat("Generation", "ms",
1000.0 * INSTR_TIME_GET_DOUBLE(ji->generation_counter),
3, es);
ExplainPropertyFloat("Inlining", "ms",
1000.0 * INSTR_TIME_GET_DOUBLE(ji->inlining_counter),
3, es);
ExplainPropertyFloat("Optimization", "ms",
1000.0 * INSTR_TIME_GET_DOUBLE(ji->optimization_counter),
3, es);
ExplainPropertyFloat("Emission", "ms",
1000.0 * INSTR_TIME_GET_DOUBLE(ji->emission_counter),
3, es);
ExplainPropertyFloat("Total", "ms",
1000.0 * INSTR_TIME_GET_DOUBLE(total_time),
3, es);
ExplainCloseGroup("Timing", "Timing", true, es);
}
}
ExplainCloseGroup("JIT", "JIT", true, es);
}
/*
* ExplainQueryText -
* add a "Query Text" node that contains the actual text of the query
*
* The caller should have set up the options fields of *es, as well as
* initializing the output buffer es->str.
*
*/
void
ExplainQueryText(ExplainState *es, QueryDesc *queryDesc)
{
if (queryDesc->sourceText)
ExplainPropertyText("Query Text", queryDesc->sourceText, es);
}
/*
* ExplainQueryParameters -
* add a "Query Parameters" node that describes the parameters of the query
*
* The caller should have set up the options fields of *es, as well as
* initializing the output buffer es->str.
*
*/
void
ExplainQueryParameters(ExplainState *es, ParamListInfo params, int maxlen)
{
char *str;
/* This check is consistent with errdetail_params() */
if (params == NULL || params->numParams <= 0 || maxlen == 0)
return;
str = BuildParamLogString(params, NULL, maxlen);
if (str && str[0] != '\0')
ExplainPropertyText("Query Parameters", str, es);
}
/*
* report_triggers -
* report execution stats for a single relation's triggers
*/
static void
report_triggers(ResultRelInfo *rInfo, bool show_relname, ExplainState *es)
{
int nt;
if (!rInfo->ri_TrigDesc || !rInfo->ri_TrigInstrument)
return;
for (nt = 0; nt < rInfo->ri_TrigDesc->numtriggers; nt++)
{
Trigger *trig = rInfo->ri_TrigDesc->triggers + nt;
Instrumentation *instr = rInfo->ri_TrigInstrument + nt;
char *relname;
char *conname = NULL;
/* Must clean up instrumentation state */
InstrEndLoop(instr);
/*
* We ignore triggers that were never invoked; they likely aren't
* relevant to the current query type.
*/
if (instr->ntuples == 0)
continue;
ExplainOpenGroup("Trigger", NULL, true, es);
relname = RelationGetRelationName(rInfo->ri_RelationDesc);
if (OidIsValid(trig->tgconstraint))
conname = get_constraint_name(trig->tgconstraint);
/*
* In text format, we avoid printing both the trigger name and the
* constraint name unless VERBOSE is specified. In non-text formats
* we just print everything.
*/
if (es->format == EXPLAIN_FORMAT_TEXT)
{
if (es->verbose || conname == NULL)
appendStringInfo(es->str, "Trigger %s", trig->tgname);
else
appendStringInfoString(es->str, "Trigger");
if (conname)
appendStringInfo(es->str, " for constraint %s", conname);
if (show_relname)
appendStringInfo(es->str, " on %s", relname);
if (es->timing)
appendStringInfo(es->str, ": time=%.3f calls=%.0f\n",
1000.0 * instr->total, instr->ntuples);
else
appendStringInfo(es->str, ": calls=%.0f\n", instr->ntuples);
}
else
{
ExplainPropertyText("Trigger Name", trig->tgname, es);
if (conname)
ExplainPropertyText("Constraint Name", conname, es);
ExplainPropertyText("Relation", relname, es);
if (es->timing)
ExplainPropertyFloat("Time", "ms", 1000.0 * instr->total, 3,
es);
ExplainPropertyFloat("Calls", NULL, instr->ntuples, 0, es);
}
if (conname)
pfree(conname);
ExplainCloseGroup("Trigger", NULL, true, es);
}
}
/* Compute elapsed time in seconds since given timestamp */
static double
elapsed_time(instr_time *starttime)
{
instr_time endtime;
INSTR_TIME_SET_CURRENT(endtime);
INSTR_TIME_SUBTRACT(endtime, *starttime);
return INSTR_TIME_GET_DOUBLE(endtime);
}
/*
* ExplainPreScanNode -
* Prescan the planstate tree to identify which RTEs are referenced
*
* Adds the relid of each referenced RTE to *rels_used. The result controls
* which RTEs are assigned aliases by select_rtable_names_for_explain.
* This ensures that we don't confusingly assign un-suffixed aliases to RTEs
* that never appear in the EXPLAIN output (such as inheritance parents).
*/
static bool
ExplainPreScanNode(PlanState *planstate, Bitmapset **rels_used)
{
Plan *plan = planstate->plan;
switch (nodeTag(plan))
{
case T_SeqScan:
case T_SampleScan:
case T_IndexScan:
case T_IndexOnlyScan:
case T_BitmapHeapScan:
case T_TidScan:
case T_TidRangeScan:
case T_SubqueryScan:
case T_FunctionScan:
case T_TableFuncScan:
case T_ValuesScan:
case T_CteScan:
case T_NamedTuplestoreScan:
case T_WorkTableScan:
*rels_used = bms_add_member(*rels_used,
((Scan *) plan)->scanrelid);
break;
case T_ForeignScan:
*rels_used = bms_add_members(*rels_used,
((ForeignScan *) plan)->fs_base_relids);
break;
case T_CustomScan:
*rels_used = bms_add_members(*rels_used,
((CustomScan *) plan)->custom_relids);
break;
case T_ModifyTable:
*rels_used = bms_add_member(*rels_used,
((ModifyTable *) plan)->nominalRelation);
if (((ModifyTable *) plan)->exclRelRTI)
*rels_used = bms_add_member(*rels_used,
((ModifyTable *) plan)->exclRelRTI);
break;
case T_Append:
*rels_used = bms_add_members(*rels_used,
((Append *) plan)->apprelids);
break;
case T_MergeAppend:
*rels_used = bms_add_members(*rels_used,
((MergeAppend *) plan)->apprelids);
break;
default:
break;
}
return planstate_tree_walker(planstate, ExplainPreScanNode, rels_used);
}
/*
* ExplainNode -
* Appends a description of a plan tree to es->str
*
* planstate points to the executor state node for the current plan node.
* We need to work from a PlanState node, not just a Plan node, in order to
* get at the instrumentation data (if any) as well as the list of subplans.
*
* ancestors is a list of parent Plan and SubPlan nodes, most-closely-nested
* first. These are needed in order to interpret PARAM_EXEC Params.
*
* relationship describes the relationship of this plan node to its parent
* (eg, "Outer", "Inner"); it can be null at top level. plan_name is an
* optional name to be attached to the node.
*
* In text format, es->indent is controlled in this function since we only
* want it to change at plan-node boundaries (but a few subroutines will
* transiently increment it). In non-text formats, es->indent corresponds
* to the nesting depth of logical output groups, and therefore is controlled
* by ExplainOpenGroup/ExplainCloseGroup.
*/
static void
ExplainNode(PlanState *planstate, List *ancestors,
const char *relationship, const char *plan_name,
ExplainState *es)
{
Plan *plan = planstate->plan;
const char *pname; /* node type name for text output */
const char *sname; /* node type name for non-text output */
const char *strategy = NULL;
const char *partialmode = NULL;
const char *operation = NULL;
const char *custom_name = NULL;
ExplainWorkersState *save_workers_state = es->workers_state;
int save_indent = es->indent;
bool haschildren;
/*
* Prepare per-worker output buffers, if needed. We'll append the data in
* these to the main output string further down.
*/
if (planstate->worker_instrument && es->analyze && !es->hide_workers)
es->workers_state = ExplainCreateWorkersState(planstate->worker_instrument->num_workers);
else
es->workers_state = NULL;
/* Identify plan node type, and print generic details */
switch (nodeTag(plan))
{
case T_Result:
pname = sname = "Result";
break;
case T_ProjectSet:
pname = sname = "ProjectSet";
break;
case T_ModifyTable:
sname = "ModifyTable";
switch (((ModifyTable *) plan)->operation)
{
case CMD_INSERT:
pname = operation = "Insert";
break;
case CMD_UPDATE:
pname = operation = "Update";
break;
case CMD_DELETE:
pname = operation = "Delete";
break;
case CMD_MERGE:
pname = operation = "Merge";
break;
default:
pname = "???";
break;
}
break;
case T_Append:
pname = sname = "Append";
break;
case T_MergeAppend:
pname = sname = "Merge Append";
break;
case T_RecursiveUnion:
pname = sname = "Recursive Union";
break;
case T_BitmapAnd:
pname = sname = "BitmapAnd";
break;
case T_BitmapOr:
pname = sname = "BitmapOr";
break;
case T_NestLoop:
pname = sname = "Nested Loop";
break;
case T_MergeJoin:
pname = "Merge"; /* "Join" gets added by jointype switch */
sname = "Merge Join";
break;
case T_HashJoin:
pname = "Hash"; /* "Join" gets added by jointype switch */
sname = "Hash Join";
break;
case T_SeqScan:
pname = sname = "Seq Scan";
break;
case T_SampleScan:
pname = sname = "Sample Scan";
break;
case T_Gather:
pname = sname = "Gather";
break;
case T_GatherMerge:
pname = sname = "Gather Merge";
break;
case T_IndexScan:
pname = sname = "Index Scan";
break;
case T_IndexOnlyScan:
pname = sname = "Index Only Scan";
break;
case T_BitmapIndexScan:
pname = sname = "Bitmap Index Scan";
break;
case T_BitmapHeapScan:
pname = sname = "Bitmap Heap Scan";
break;
case T_TidScan:
pname = sname = "Tid Scan";
break;
case T_TidRangeScan:
pname = sname = "Tid Range Scan";
break;
case T_SubqueryScan:
pname = sname = "Subquery Scan";
break;
case T_FunctionScan:
pname = sname = "Function Scan";
break;
case T_TableFuncScan:
pname = sname = "Table Function Scan";
break;
case T_ValuesScan:
pname = sname = "Values Scan";
break;
case T_CteScan:
pname = sname = "CTE Scan";
break;
case T_NamedTuplestoreScan:
pname = sname = "Named Tuplestore Scan";
break;
case T_WorkTableScan:
pname = sname = "WorkTable Scan";
break;
case T_ForeignScan:
sname = "Foreign Scan";
switch (((ForeignScan *) plan)->operation)
{
case CMD_SELECT:
pname = "Foreign Scan";
operation = "Select";
break;
case CMD_INSERT:
pname = "Foreign Insert";
operation = "Insert";
break;
case CMD_UPDATE:
pname = "Foreign Update";
operation = "Update";
break;
case CMD_DELETE:
pname = "Foreign Delete";
operation = "Delete";
break;
default:
pname = "???";
break;
}
break;
case T_CustomScan:
sname = "Custom Scan";
custom_name = ((CustomScan *) plan)->methods->CustomName;
if (custom_name)
pname = psprintf("Custom Scan (%s)", custom_name);
else
pname = sname;
break;
case T_Material:
pname = sname = "Materialize";
break;
case T_Memoize:
pname = sname = "Memoize";
break;
case T_Sort:
pname = sname = "Sort";
break;
case T_IncrementalSort:
pname = sname = "Incremental Sort";
break;
case T_Group:
pname = sname = "Group";
break;
case T_Agg:
{
Agg *agg = (Agg *) plan;
sname = "Aggregate";
switch (agg->aggstrategy)
{
case AGG_PLAIN:
pname = "Aggregate";
strategy = "Plain";
break;
case AGG_SORTED:
pname = "GroupAggregate";
strategy = "Sorted";
break;
case AGG_HASHED:
pname = "HashAggregate";
strategy = "Hashed";
break;
case AGG_MIXED:
pname = "MixedAggregate";
strategy = "Mixed";
break;
default:
pname = "Aggregate ???";
strategy = "???";
break;
}
if (DO_AGGSPLIT_SKIPFINAL(agg->aggsplit))
{
partialmode = "Partial";
pname = psprintf("%s %s", partialmode, pname);
}
else if (DO_AGGSPLIT_COMBINE(agg->aggsplit))
{
partialmode = "Finalize";
pname = psprintf("%s %s", partialmode, pname);
}
else
partialmode = "Simple";
}
break;
case T_WindowAgg:
pname = sname = "WindowAgg";
break;
case T_Unique:
pname = sname = "Unique";
break;
case T_SetOp:
sname = "SetOp";
switch (((SetOp *) plan)->strategy)
{
case SETOP_SORTED:
pname = "SetOp";
strategy = "Sorted";
break;
case SETOP_HASHED:
pname = "HashSetOp";
strategy = "Hashed";
break;
default:
pname = "SetOp ???";
strategy = "???";
break;
}
break;
case T_LockRows:
pname = sname = "LockRows";
break;
case T_Limit:
pname = sname = "Limit";
break;
case T_Hash:
pname = sname = "Hash";
break;
default:
pname = sname = "???";
break;
}
ExplainOpenGroup("Plan",
relationship ? NULL : "Plan",
true, es);
if (es->format == EXPLAIN_FORMAT_TEXT)
{
if (plan_name)
{
ExplainIndentText(es);
appendStringInfo(es->str, "%s\n", plan_name);
es->indent++;
}
if (es->indent)
{
ExplainIndentText(es);
appendStringInfoString(es->str, "-> ");
es->indent += 2;
}
if (plan->parallel_aware)
appendStringInfoString(es->str, "Parallel ");
if (plan->async_capable)
appendStringInfoString(es->str, "Async ");
appendStringInfoString(es->str, pname);
es->indent++;
}
else
{
ExplainPropertyText("Node Type", sname, es);
if (strategy)
ExplainPropertyText("Strategy", strategy, es);
if (partialmode)
ExplainPropertyText("Partial Mode", partialmode, es);
if (operation)
ExplainPropertyText("Operation", operation, es);
if (relationship)
ExplainPropertyText("Parent Relationship", relationship, es);
if (plan_name)
ExplainPropertyText("Subplan Name", plan_name, es);
if (custom_name)
ExplainPropertyText("Custom Plan Provider", custom_name, es);
ExplainPropertyBool("Parallel Aware", plan->parallel_aware, es);
ExplainPropertyBool("Async Capable", plan->async_capable, es);
}
switch (nodeTag(plan))
{
case T_SeqScan:
case T_SampleScan:
case T_BitmapHeapScan:
case T_TidScan:
case T_TidRangeScan:
case T_SubqueryScan:
case T_FunctionScan:
case T_TableFuncScan:
case T_ValuesScan:
case T_CteScan:
case T_WorkTableScan:
ExplainScanTarget((Scan *) plan, es);
break;
case T_ForeignScan:
case T_CustomScan:
if (((Scan *) plan)->scanrelid > 0)
ExplainScanTarget((Scan *) plan, es);
break;
case T_IndexScan:
{
IndexScan *indexscan = (IndexScan *) plan;
ExplainIndexScanDetails(indexscan->indexid,
indexscan->indexorderdir,
es);
ExplainScanTarget((Scan *) indexscan, es);
}
break;
case T_IndexOnlyScan:
{
IndexOnlyScan *indexonlyscan = (IndexOnlyScan *) plan;
ExplainIndexScanDetails(indexonlyscan->indexid,
indexonlyscan->indexorderdir,
es);
ExplainScanTarget((Scan *) indexonlyscan, es);
}
break;
case T_BitmapIndexScan:
{
BitmapIndexScan *bitmapindexscan = (BitmapIndexScan *) plan;
const char *indexname =
explain_get_index_name(bitmapindexscan->indexid);
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfo(es->str, " on %s",
quote_identifier(indexname));
else
ExplainPropertyText("Index Name", indexname, es);
}
break;
case T_ModifyTable:
ExplainModifyTarget((ModifyTable *) plan, es);
break;
case T_NestLoop:
case T_MergeJoin:
case T_HashJoin:
{
const char *jointype;
switch (((Join *) plan)->jointype)
{
case JOIN_INNER:
jointype = "Inner";
break;
case JOIN_LEFT:
jointype = "Left";
break;
case JOIN_FULL:
jointype = "Full";
break;
case JOIN_RIGHT:
jointype = "Right";
break;
case JOIN_SEMI:
jointype = "Semi";
break;
case JOIN_ANTI:
jointype = "Anti";
break;
case JOIN_RIGHT_ANTI:
jointype = "Right Anti";
break;
default:
jointype = "???";
break;
}
if (es->format == EXPLAIN_FORMAT_TEXT)
{
/*
* For historical reasons, the join type is interpolated
* into the node type name...
*/
if (((Join *) plan)->jointype != JOIN_INNER)
appendStringInfo(es->str, " %s Join", jointype);
else if (!IsA(plan, NestLoop))
appendStringInfoString(es->str, " Join");
}
else
ExplainPropertyText("Join Type", jointype, es);
}
break;
case T_SetOp:
{
const char *setopcmd;
switch (((SetOp *) plan)->cmd)
{
case SETOPCMD_INTERSECT:
setopcmd = "Intersect";
break;
case SETOPCMD_INTERSECT_ALL:
setopcmd = "Intersect All";
break;
case SETOPCMD_EXCEPT:
setopcmd = "Except";
break;
case SETOPCMD_EXCEPT_ALL:
setopcmd = "Except All";
break;
default:
setopcmd = "???";
break;
}
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfo(es->str, " %s", setopcmd);
else
ExplainPropertyText("Command", setopcmd, es);
}
break;
default:
break;
}
if (es->costs)
{
if (es->format == EXPLAIN_FORMAT_TEXT)
{
appendStringInfo(es->str, " (cost=%.2f..%.2f rows=%.0f width=%d)",
plan->startup_cost, plan->total_cost,
plan->plan_rows, plan->plan_width);
}
else
{
ExplainPropertyFloat("Startup Cost", NULL, plan->startup_cost,
2, es);
ExplainPropertyFloat("Total Cost", NULL, plan->total_cost,
2, es);
ExplainPropertyFloat("Plan Rows", NULL, plan->plan_rows,
0, es);
ExplainPropertyInteger("Plan Width", NULL, plan->plan_width,
es);
}
}
/*
* We have to forcibly clean up the instrumentation state because we
* haven't done ExecutorEnd yet. This is pretty grotty ...
*
* Note: contrib/auto_explain could cause instrumentation to be set up
* even though we didn't ask for it here. Be careful not to print any
* instrumentation results the user didn't ask for. But we do the
* InstrEndLoop call anyway, if possible, to reduce the number of cases
* auto_explain has to contend with.
*/
if (planstate->instrument)
InstrEndLoop(planstate->instrument);
if (es->analyze &&
planstate->instrument && planstate->instrument->nloops > 0)
{
double nloops = planstate->instrument->nloops;
double startup_ms = 1000.0 * planstate->instrument->startup / nloops;
double total_ms = 1000.0 * planstate->instrument->total / nloops;
double rows = planstate->instrument->ntuples / nloops;
if (es->format == EXPLAIN_FORMAT_TEXT)
{
if (es->timing)
appendStringInfo(es->str,
" (actual time=%.3f..%.3f rows=%.0f loops=%.0f)",
startup_ms, total_ms, rows, nloops);
else
appendStringInfo(es->str,
" (actual rows=%.0f loops=%.0f)",
rows, nloops);
}
else
{
if (es->timing)
{
ExplainPropertyFloat("Actual Startup Time", "ms", startup_ms,
3, es);
ExplainPropertyFloat("Actual Total Time", "ms", total_ms,
3, es);
}
ExplainPropertyFloat("Actual Rows", NULL, rows, 0, es);
ExplainPropertyFloat("Actual Loops", NULL, nloops, 0, es);
}
}
else if (es->analyze)
{
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfoString(es->str, " (never executed)");
else
{
if (es->timing)
{
ExplainPropertyFloat("Actual Startup Time", "ms", 0.0, 3, es);
ExplainPropertyFloat("Actual Total Time", "ms", 0.0, 3, es);
}
ExplainPropertyFloat("Actual Rows", NULL, 0.0, 0, es);
ExplainPropertyFloat("Actual Loops", NULL, 0.0, 0, es);
}
}
/* in text format, first line ends here */
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfoChar(es->str, '\n');
/* prepare per-worker general execution details */
if (es->workers_state && es->verbose)
{
WorkerInstrumentation *w = planstate->worker_instrument;
for (int n = 0; n < w->num_workers; n++)
{
Instrumentation *instrument = &w->instrument[n];
double nloops = instrument->nloops;
double startup_ms;
double total_ms;
double rows;
if (nloops <= 0)
continue;
startup_ms = 1000.0 * instrument->startup / nloops;
total_ms = 1000.0 * instrument->total / nloops;
rows = instrument->ntuples / nloops;
ExplainOpenWorker(n, es);
if (es->format == EXPLAIN_FORMAT_TEXT)
{
ExplainIndentText(es);
if (es->timing)
appendStringInfo(es->str,
"actual time=%.3f..%.3f rows=%.0f loops=%.0f\n",
startup_ms, total_ms, rows, nloops);
else
appendStringInfo(es->str,
"actual rows=%.0f loops=%.0f\n",
rows, nloops);
}
else
{
if (es->timing)
{
ExplainPropertyFloat("Actual Startup Time", "ms",
startup_ms, 3, es);
ExplainPropertyFloat("Actual Total Time", "ms",
total_ms, 3, es);
}
ExplainPropertyFloat("Actual Rows", NULL, rows, 0, es);
ExplainPropertyFloat("Actual Loops", NULL, nloops, 0, es);
}
ExplainCloseWorker(n, es);
}
}
/* target list */
if (es->verbose)
show_plan_tlist(planstate, ancestors, es);
/* unique join */
switch (nodeTag(plan))
{
case T_NestLoop:
case T_MergeJoin:
case T_HashJoin:
/* try not to be too chatty about this in text mode */
if (es->format != EXPLAIN_FORMAT_TEXT ||
(es->verbose && ((Join *) plan)->inner_unique))
ExplainPropertyBool("Inner Unique",
((Join *) plan)->inner_unique,
es);
break;
default:
break;
}
/* quals, sort keys, etc */
switch (nodeTag(plan))
{
case T_IndexScan:
show_scan_qual(((IndexScan *) plan)->indexqualorig,
"Index Cond", planstate, ancestors, es);
if (((IndexScan *) plan)->indexqualorig)
show_instrumentation_count("Rows Removed by Index Recheck", 2,
planstate, es);
show_scan_qual(((IndexScan *) plan)->indexorderbyorig,
"Order By", planstate, ancestors, es);
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
break;
case T_IndexOnlyScan:
show_scan_qual(((IndexOnlyScan *) plan)->indexqual,
"Index Cond", planstate, ancestors, es);
if (((IndexOnlyScan *) plan)->recheckqual)
show_instrumentation_count("Rows Removed by Index Recheck", 2,
planstate, es);
show_scan_qual(((IndexOnlyScan *) plan)->indexorderby,
"Order By", planstate, ancestors, es);
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
if (es->analyze)
ExplainPropertyFloat("Heap Fetches", NULL,
planstate->instrument->ntuples2, 0, es);
break;
case T_BitmapIndexScan:
show_scan_qual(((BitmapIndexScan *) plan)->indexqualorig,
"Index Cond", planstate, ancestors, es);
break;
case T_BitmapHeapScan:
show_scan_qual(((BitmapHeapScan *) plan)->bitmapqualorig,
"Recheck Cond", planstate, ancestors, es);
if (((BitmapHeapScan *) plan)->bitmapqualorig)
show_instrumentation_count("Rows Removed by Index Recheck", 2,
planstate, es);
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
if (es->analyze)
show_tidbitmap_info((BitmapHeapScanState *) planstate, es);
break;
case T_SampleScan:
show_tablesample(((SampleScan *) plan)->tablesample,
planstate, ancestors, es);
/* fall through to print additional fields the same as SeqScan */
/* FALLTHROUGH */
case T_SeqScan:
case T_ValuesScan:
case T_CteScan:
case T_NamedTuplestoreScan:
case T_WorkTableScan:
case T_SubqueryScan:
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
break;
case T_Gather:
{
Gather *gather = (Gather *) plan;
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
ExplainPropertyInteger("Workers Planned", NULL,
gather->num_workers, es);
/* Show params evaluated at gather node */
if (gather->initParam)
show_eval_params(gather->initParam, es);
if (es->analyze)
{
int nworkers;
nworkers = ((GatherState *) planstate)->nworkers_launched;
ExplainPropertyInteger("Workers Launched", NULL,
nworkers, es);
}
if (gather->single_copy || es->format != EXPLAIN_FORMAT_TEXT)
ExplainPropertyBool("Single Copy", gather->single_copy, es);
}
break;
case T_GatherMerge:
{
GatherMerge *gm = (GatherMerge *) plan;
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
ExplainPropertyInteger("Workers Planned", NULL,
gm->num_workers, es);
/* Show params evaluated at gather-merge node */
if (gm->initParam)
show_eval_params(gm->initParam, es);
if (es->analyze)
{
int nworkers;
nworkers = ((GatherMergeState *) planstate)->nworkers_launched;
ExplainPropertyInteger("Workers Launched", NULL,
nworkers, es);
}
}
break;
case T_FunctionScan:
if (es->verbose)
{
List *fexprs = NIL;
ListCell *lc;
foreach(lc, ((FunctionScan *) plan)->functions)
{
RangeTblFunction *rtfunc = (RangeTblFunction *) lfirst(lc);
fexprs = lappend(fexprs, rtfunc->funcexpr);
}
/* We rely on show_expression to insert commas as needed */
show_expression((Node *) fexprs,
"Function Call", planstate, ancestors,
es->verbose, es);
}
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
break;
case T_TableFuncScan:
if (es->verbose)
{
TableFunc *tablefunc = ((TableFuncScan *) plan)->tablefunc;
show_expression((Node *) tablefunc,
"Table Function Call", planstate, ancestors,
es->verbose, es);
}
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
break;
case T_TidScan:
{
/*
* The tidquals list has OR semantics, so be sure to show it
* as an OR condition.
*/
List *tidquals = ((TidScan *) plan)->tidquals;
if (list_length(tidquals) > 1)
tidquals = list_make1(make_orclause(tidquals));
show_scan_qual(tidquals, "TID Cond", planstate, ancestors, es);
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
}
break;
case T_TidRangeScan:
{
/*
* The tidrangequals list has AND semantics, so be sure to
* show it as an AND condition.
*/
List *tidquals = ((TidRangeScan *) plan)->tidrangequals;
if (list_length(tidquals) > 1)
tidquals = list_make1(make_andclause(tidquals));
show_scan_qual(tidquals, "TID Cond", planstate, ancestors, es);
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
}
break;
case T_ForeignScan:
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
show_foreignscan_info((ForeignScanState *) planstate, es);
break;
case T_CustomScan:
{
CustomScanState *css = (CustomScanState *) planstate;
show_scan_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
if (css->methods->ExplainCustomScan)
css->methods->ExplainCustomScan(css, ancestors, es);
}
break;
case T_NestLoop:
show_upper_qual(((NestLoop *) plan)->join.joinqual,
"Join Filter", planstate, ancestors, es);
if (((NestLoop *) plan)->join.joinqual)
show_instrumentation_count("Rows Removed by Join Filter", 1,
planstate, es);
show_upper_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 2,
planstate, es);
break;
case T_MergeJoin:
show_upper_qual(((MergeJoin *) plan)->mergeclauses,
"Merge Cond", planstate, ancestors, es);
show_upper_qual(((MergeJoin *) plan)->join.joinqual,
"Join Filter", planstate, ancestors, es);
if (((MergeJoin *) plan)->join.joinqual)
show_instrumentation_count("Rows Removed by Join Filter", 1,
planstate, es);
show_upper_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 2,
planstate, es);
break;
case T_HashJoin:
show_upper_qual(((HashJoin *) plan)->hashclauses,
"Hash Cond", planstate, ancestors, es);
show_upper_qual(((HashJoin *) plan)->join.joinqual,
"Join Filter", planstate, ancestors, es);
if (((HashJoin *) plan)->join.joinqual)
show_instrumentation_count("Rows Removed by Join Filter", 1,
planstate, es);
show_upper_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 2,
planstate, es);
break;
case T_Agg:
show_agg_keys(castNode(AggState, planstate), ancestors, es);
show_upper_qual(plan->qual, "Filter", planstate, ancestors, es);
show_hashagg_info((AggState *) planstate, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
break;
case T_WindowAgg:
show_upper_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
show_upper_qual(((WindowAgg *) plan)->runConditionOrig,
"Run Condition", planstate, ancestors, es);
break;
case T_Group:
show_group_keys(castNode(GroupState, planstate), ancestors, es);
show_upper_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
break;
case T_Sort:
show_sort_keys(castNode(SortState, planstate), ancestors, es);
show_sort_info(castNode(SortState, planstate), es);
break;
case T_IncrementalSort:
show_incremental_sort_keys(castNode(IncrementalSortState, planstate),
ancestors, es);
show_incremental_sort_info(castNode(IncrementalSortState, planstate),
es);
break;
case T_MergeAppend:
show_merge_append_keys(castNode(MergeAppendState, planstate),
ancestors, es);
break;
case T_Result:
show_upper_qual((List *) ((Result *) plan)->resconstantqual,
"One-Time Filter", planstate, ancestors, es);
show_upper_qual(plan->qual, "Filter", planstate, ancestors, es);
if (plan->qual)
show_instrumentation_count("Rows Removed by Filter", 1,
planstate, es);
break;
case T_ModifyTable:
show_modifytable_info(castNode(ModifyTableState, planstate), ancestors,
es);
break;
case T_Hash:
show_hash_info(castNode(HashState, planstate), es);
break;
case T_Memoize:
show_memoize_info(castNode(MemoizeState, planstate), ancestors,
es);
break;
default:
break;
}
/*
* Prepare per-worker JIT instrumentation. As with the overall JIT
* summary, this is printed only if printing costs is enabled.
*/
if (es->workers_state && es->costs && es->verbose)
{
SharedJitInstrumentation *w = planstate->worker_jit_instrument;
if (w)
{
for (int n = 0; n < w->num_workers; n++)
{
ExplainOpenWorker(n, es);
ExplainPrintJIT(es, planstate->state->es_jit_flags,
&w->jit_instr[n]);
ExplainCloseWorker(n, es);
}
}
}
/* Show buffer/WAL usage */
if (es->buffers && planstate->instrument)
show_buffer_usage(es, &planstate->instrument->bufusage, false);
if (es->wal && planstate->instrument)
show_wal_usage(es, &planstate->instrument->walusage);
/* Prepare per-worker buffer/WAL usage */
if (es->workers_state && (es->buffers || es->wal) && es->verbose)
{
WorkerInstrumentation *w = planstate->worker_instrument;
for (int n = 0; n < w->num_workers; n++)
{
Instrumentation *instrument = &w->instrument[n];
double nloops = instrument->nloops;
if (nloops <= 0)
continue;
ExplainOpenWorker(n, es);
if (es->buffers)
show_buffer_usage(es, &instrument->bufusage, false);
if (es->wal)
show_wal_usage(es, &instrument->walusage);
ExplainCloseWorker(n, es);
}
}
/* Show per-worker details for this plan node, then pop that stack */
if (es->workers_state)
ExplainFlushWorkersState(es);
es->workers_state = save_workers_state;
/*
* If partition pruning was done during executor initialization, the
* number of child plans we'll display below will be less than the number
* of subplans that was specified in the plan. To make this a bit less
* mysterious, emit an indication that this happened. Note that this
* field is emitted now because we want it to be a property of the parent
* node; it *cannot* be emitted within the Plans sub-node we'll open next.
*/
switch (nodeTag(plan))
{
case T_Append:
ExplainMissingMembers(((AppendState *) planstate)->as_nplans,
list_length(((Append *) plan)->appendplans),
es);
break;
case T_MergeAppend:
ExplainMissingMembers(((MergeAppendState *) planstate)->ms_nplans,
list_length(((MergeAppend *) plan)->mergeplans),
es);
break;
default:
break;
}
/* Get ready to display the child plans */
haschildren = planstate->initPlan ||
outerPlanState(planstate) ||
innerPlanState(planstate) ||
IsA(plan, Append) ||
IsA(plan, MergeAppend) ||
IsA(plan, BitmapAnd) ||
IsA(plan, BitmapOr) ||
IsA(plan, SubqueryScan) ||
(IsA(planstate, CustomScanState) &&
((CustomScanState *) planstate)->custom_ps != NIL) ||
planstate->subPlan;
if (haschildren)
{
ExplainOpenGroup("Plans", "Plans", false, es);
/* Pass current Plan as head of ancestors list for children */
ancestors = lcons(plan, ancestors);
}
/* initPlan-s */
if (planstate->initPlan)
ExplainSubPlans(planstate->initPlan, ancestors, "InitPlan", es);
/* lefttree */
if (outerPlanState(planstate))
ExplainNode(outerPlanState(planstate), ancestors,
"Outer", NULL, es);
/* righttree */
if (innerPlanState(planstate))
ExplainNode(innerPlanState(planstate), ancestors,
"Inner", NULL, es);
/* special child plans */
switch (nodeTag(plan))
{
case T_Append:
ExplainMemberNodes(((AppendState *) planstate)->appendplans,
((AppendState *) planstate)->as_nplans,
ancestors, es);
break;
case T_MergeAppend:
ExplainMemberNodes(((MergeAppendState *) planstate)->mergeplans,
((MergeAppendState *) planstate)->ms_nplans,
ancestors, es);
break;
case T_BitmapAnd:
ExplainMemberNodes(((BitmapAndState *) planstate)->bitmapplans,
((BitmapAndState *) planstate)->nplans,
ancestors, es);
break;
case T_BitmapOr:
ExplainMemberNodes(((BitmapOrState *) planstate)->bitmapplans,
((BitmapOrState *) planstate)->nplans,
ancestors, es);
break;
case T_SubqueryScan:
ExplainNode(((SubqueryScanState *) planstate)->subplan, ancestors,
"Subquery", NULL, es);
break;
case T_CustomScan:
ExplainCustomChildren((CustomScanState *) planstate,
ancestors, es);
break;
default:
break;
}
/* subPlan-s */
if (planstate->subPlan)
ExplainSubPlans(planstate->subPlan, ancestors, "SubPlan", es);
/* end of child plans */
if (haschildren)
{
ancestors = list_delete_first(ancestors);
ExplainCloseGroup("Plans", "Plans", false, es);
}
/* in text format, undo whatever indentation we added */
if (es->format == EXPLAIN_FORMAT_TEXT)
es->indent = save_indent;
ExplainCloseGroup("Plan",
relationship ? NULL : "Plan",
true, es);
}
/*
* Show the targetlist of a plan node
*/
static void
show_plan_tlist(PlanState *planstate, List *ancestors, ExplainState *es)
{
Plan *plan = planstate->plan;
List *context;
List *result = NIL;
bool useprefix;
ListCell *lc;
/* No work if empty tlist (this occurs eg in bitmap indexscans) */
if (plan->targetlist == NIL)
return;
/* The tlist of an Append isn't real helpful, so suppress it */
if (IsA(plan, Append))
return;
/* Likewise for MergeAppend and RecursiveUnion */
if (IsA(plan, MergeAppend))
return;
if (IsA(plan, RecursiveUnion))
return;
/*
* Likewise for ForeignScan that executes a direct INSERT/UPDATE/DELETE
*
* Note: the tlist for a ForeignScan that executes a direct INSERT/UPDATE
* might contain subplan output expressions that are confusing in this
* context. The tlist for a ForeignScan that executes a direct UPDATE/
* DELETE always contains "junk" target columns to identify the exact row
* to update or delete, which would be confusing in this context. So, we
* suppress it in all the cases.
*/
if (IsA(plan, ForeignScan) &&
((ForeignScan *) plan)->operation != CMD_SELECT)
return;
/* Set up deparsing context */
context = set_deparse_context_plan(es->deparse_cxt,
plan,
ancestors);
useprefix = list_length(es->rtable) > 1;
/* Deparse each result column (we now include resjunk ones) */
foreach(lc, plan->targetlist)
{
TargetEntry *tle = (TargetEntry *) lfirst(lc);
result = lappend(result,
deparse_expression((Node *) tle->expr, context,
useprefix, false));
}
/* Print results */
ExplainPropertyList("Output", result, es);
}
/*
* Show a generic expression
*/
static void
show_expression(Node *node, const char *qlabel,
PlanState *planstate, List *ancestors,
bool useprefix, ExplainState *es)
{
List *context;
char *exprstr;
/* Set up deparsing context */
context = set_deparse_context_plan(es->deparse_cxt,
planstate->plan,
ancestors);
/* Deparse the expression */
exprstr = deparse_expression(node, context, useprefix, false);
/* And add to es->str */
ExplainPropertyText(qlabel, exprstr, es);
}
/*
* Show a qualifier expression (which is a List with implicit AND semantics)
*/
static void
show_qual(List *qual, const char *qlabel,
PlanState *planstate, List *ancestors,
bool useprefix, ExplainState *es)
{
Node *node;
/* No work if empty qual */
if (qual == NIL)
return;
/* Convert AND list to explicit AND */
node = (Node *) make_ands_explicit(qual);
/* And show it */
show_expression(node, qlabel, planstate, ancestors, useprefix, es);
}
/*
* Show a qualifier expression for a scan plan node
*/
static void
show_scan_qual(List *qual, const char *qlabel,
PlanState *planstate, List *ancestors,
ExplainState *es)
{
bool useprefix;
useprefix = (IsA(planstate->plan, SubqueryScan) || es->verbose);
show_qual(qual, qlabel, planstate, ancestors, useprefix, es);
}
/*
* Show a qualifier expression for an upper-level plan node
*/
static void
show_upper_qual(List *qual, const char *qlabel,
PlanState *planstate, List *ancestors,
ExplainState *es)
{
bool useprefix;
useprefix = (list_length(es->rtable) > 1 || es->verbose);
show_qual(qual, qlabel, planstate, ancestors, useprefix, es);
}
/*
* Show the sort keys for a Sort node.
*/
static void
show_sort_keys(SortState *sortstate, List *ancestors, ExplainState *es)
{
Sort *plan = (Sort *) sortstate->ss.ps.plan;
show_sort_group_keys((PlanState *) sortstate, "Sort Key",
plan->numCols, 0, plan->sortColIdx,
plan->sortOperators, plan->collations,
plan->nullsFirst,
ancestors, es);
}
/*
* Show the sort keys for a IncrementalSort node.
*/
static void
show_incremental_sort_keys(IncrementalSortState *incrsortstate,
List *ancestors, ExplainState *es)
{
IncrementalSort *plan = (IncrementalSort *) incrsortstate->ss.ps.plan;
show_sort_group_keys((PlanState *) incrsortstate, "Sort Key",
plan->sort.numCols, plan->nPresortedCols,
plan->sort.sortColIdx,
plan->sort.sortOperators, plan->sort.collations,
plan->sort.nullsFirst,
ancestors, es);
}
/*
* Likewise, for a MergeAppend node.
*/
static void
show_merge_append_keys(MergeAppendState *mstate, List *ancestors,
ExplainState *es)
{
MergeAppend *plan = (MergeAppend *) mstate->ps.plan;
show_sort_group_keys((PlanState *) mstate, "Sort Key",
plan->numCols, 0, plan->sortColIdx,
plan->sortOperators, plan->collations,
plan->nullsFirst,
ancestors, es);
}
/*
* Show the grouping keys for an Agg node.
*/
static void
show_agg_keys(AggState *astate, List *ancestors,
ExplainState *es)
{
Agg *plan = (Agg *) astate->ss.ps.plan;
if (plan->numCols > 0 || plan->groupingSets)
{
/* The key columns refer to the tlist of the child plan */
ancestors = lcons(plan, ancestors);
if (plan->groupingSets)
show_grouping_sets(outerPlanState(astate), plan, ancestors, es);
else
show_sort_group_keys(outerPlanState(astate), "Group Key",
plan->numCols, 0, plan->grpColIdx,
NULL, NULL, NULL,
ancestors, es);
ancestors = list_delete_first(ancestors);
}
}
static void
show_grouping_sets(PlanState *planstate, Agg *agg,
List *ancestors, ExplainState *es)
{
List *context;
bool useprefix;
ListCell *lc;
/* Set up deparsing context */
context = set_deparse_context_plan(es->deparse_cxt,
planstate->plan,
ancestors);
useprefix = (list_length(es->rtable) > 1 || es->verbose);
ExplainOpenGroup("Grouping Sets", "Grouping Sets", false, es);
show_grouping_set_keys(planstate, agg, NULL,
context, useprefix, ancestors, es);
foreach(lc, agg->chain)
{
Agg *aggnode = lfirst(lc);
Sort *sortnode = (Sort *) aggnode->plan.lefttree;
show_grouping_set_keys(planstate, aggnode, sortnode,
context, useprefix, ancestors, es);
}
ExplainCloseGroup("Grouping Sets", "Grouping Sets", false, es);
}
static void
show_grouping_set_keys(PlanState *planstate,
Agg *aggnode, Sort *sortnode,
List *context, bool useprefix,
List *ancestors, ExplainState *es)
{
Plan *plan = planstate->plan;
char *exprstr;
ListCell *lc;
List *gsets = aggnode->groupingSets;
AttrNumber *keycols = aggnode->grpColIdx;
const char *keyname;
const char *keysetname;
if (aggnode->aggstrategy == AGG_HASHED || aggnode->aggstrategy == AGG_MIXED)
{
keyname = "Hash Key";
keysetname = "Hash Keys";
}
else
{
keyname = "Group Key";
keysetname = "Group Keys";
}
ExplainOpenGroup("Grouping Set", NULL, true, es);
if (sortnode)
{
show_sort_group_keys(planstate, "Sort Key",
sortnode->numCols, 0, sortnode->sortColIdx,
sortnode->sortOperators, sortnode->collations,
sortnode->nullsFirst,
ancestors, es);
if (es->format == EXPLAIN_FORMAT_TEXT)
es->indent++;
}
ExplainOpenGroup(keysetname, keysetname, false, es);
foreach(lc, gsets)
{
List *result = NIL;
ListCell *lc2;
foreach(lc2, (List *) lfirst(lc))
{
Index i = lfirst_int(lc2);
AttrNumber keyresno = keycols[i];
TargetEntry *target = get_tle_by_resno(plan->targetlist,
keyresno);
if (!target)
elog(ERROR, "no tlist entry for key %d", keyresno);
/* Deparse the expression, showing any top-level cast */
exprstr = deparse_expression((Node *) target->expr, context,
useprefix, true);
result = lappend(result, exprstr);
}
if (!result && es->format == EXPLAIN_FORMAT_TEXT)
ExplainPropertyText(keyname, "()", es);
else
ExplainPropertyListNested(keyname, result, es);
}
ExplainCloseGroup(keysetname, keysetname, false, es);
if (sortnode && es->format == EXPLAIN_FORMAT_TEXT)
es->indent--;
ExplainCloseGroup("Grouping Set", NULL, true, es);
}
/*
* Show the grouping keys for a Group node.
*/
static void
show_group_keys(GroupState *gstate, List *ancestors,
ExplainState *es)
{
Group *plan = (Group *) gstate->ss.ps.plan;
/* The key columns refer to the tlist of the child plan */
ancestors = lcons(plan, ancestors);
show_sort_group_keys(outerPlanState(gstate), "Group Key",
plan->numCols, 0, plan->grpColIdx,
NULL, NULL, NULL,
ancestors, es);
ancestors = list_delete_first(ancestors);
}
/*
* Common code to show sort/group keys, which are represented in plan nodes
* as arrays of targetlist indexes. If it's a sort key rather than a group
* key, also pass sort operators/collations/nullsFirst arrays.
*/
static void
show_sort_group_keys(PlanState *planstate, const char *qlabel,
int nkeys, int nPresortedKeys, AttrNumber *keycols,
Oid *sortOperators, Oid *collations, bool *nullsFirst,
List *ancestors, ExplainState *es)
{
Plan *plan = planstate->plan;
List *context;
List *result = NIL;
List *resultPresorted = NIL;
StringInfoData sortkeybuf;
bool useprefix;
int keyno;
if (nkeys <= 0)
return;
initStringInfo(&sortkeybuf);
/* Set up deparsing context */
context = set_deparse_context_plan(es->deparse_cxt,
plan,
ancestors);
useprefix = (list_length(es->rtable) > 1 || es->verbose);
for (keyno = 0; keyno < nkeys; keyno++)
{
/* find key expression in tlist */
AttrNumber keyresno = keycols[keyno];
TargetEntry *target = get_tle_by_resno(plan->targetlist,
keyresno);
char *exprstr;
if (!target)
elog(ERROR, "no tlist entry for key %d", keyresno);
/* Deparse the expression, showing any top-level cast */
exprstr = deparse_expression((Node *) target->expr, context,
useprefix, true);
resetStringInfo(&sortkeybuf);
appendStringInfoString(&sortkeybuf, exprstr);
/* Append sort order information, if relevant */
if (sortOperators != NULL)
show_sortorder_options(&sortkeybuf,
(Node *) target->expr,
sortOperators[keyno],
collations[keyno],
nullsFirst[keyno]);
/* Emit one property-list item per sort key */
result = lappend(result, pstrdup(sortkeybuf.data));
if (keyno < nPresortedKeys)
resultPresorted = lappend(resultPresorted, exprstr);
}
ExplainPropertyList(qlabel, result, es);
if (nPresortedKeys > 0)
ExplainPropertyList("Presorted Key", resultPresorted, es);
}
/*
* Append nondefault characteristics of the sort ordering of a column to buf
* (collation, direction, NULLS FIRST/LAST)
*/
static void
show_sortorder_options(StringInfo buf, Node *sortexpr,
Oid sortOperator, Oid collation, bool nullsFirst)
{
Oid sortcoltype = exprType(sortexpr);
bool reverse = false;
TypeCacheEntry *typentry;
typentry = lookup_type_cache(sortcoltype,
TYPECACHE_LT_OPR | TYPECACHE_GT_OPR);
/*
* Print COLLATE if it's not default for the column's type. There are
* some cases where this is redundant, eg if expression is a column whose
* declared collation is that collation, but it's hard to distinguish that
* here (and arguably, printing COLLATE explicitly is a good idea anyway
* in such cases).
*/
if (OidIsValid(collation) && collation != get_typcollation(sortcoltype))
{
char *collname = get_collation_name(collation);
if (collname == NULL)
elog(ERROR, "cache lookup failed for collation %u", collation);
appendStringInfo(buf, " COLLATE %s", quote_identifier(collname));
}
/* Print direction if not ASC, or USING if non-default sort operator */
if (sortOperator == typentry->gt_opr)
{
appendStringInfoString(buf, " DESC");
reverse = true;
}
else if (sortOperator != typentry->lt_opr)
{
char *opname = get_opname(sortOperator);
if (opname == NULL)
elog(ERROR, "cache lookup failed for operator %u", sortOperator);
appendStringInfo(buf, " USING %s", opname);
/* Determine whether operator would be considered ASC or DESC */
(void) get_equality_op_for_ordering_op(sortOperator, &reverse);
}
/* Add NULLS FIRST/LAST only if it wouldn't be default */
if (nullsFirst && !reverse)
{
appendStringInfoString(buf, " NULLS FIRST");
}
else if (!nullsFirst && reverse)
{
appendStringInfoString(buf, " NULLS LAST");
}
}
/*
* Show TABLESAMPLE properties
*/
static void
show_tablesample(TableSampleClause *tsc, PlanState *planstate,
List *ancestors, ExplainState *es)
{
List *context;
bool useprefix;
char *method_name;
List *params = NIL;
char *repeatable;
ListCell *lc;
/* Set up deparsing context */
context = set_deparse_context_plan(es->deparse_cxt,
planstate->plan,
ancestors);
useprefix = list_length(es->rtable) > 1;
/* Get the tablesample method name */
method_name = get_func_name(tsc->tsmhandler);
/* Deparse parameter expressions */
foreach(lc, tsc->args)
{
Node *arg = (Node *) lfirst(lc);
params = lappend(params,
deparse_expression(arg, context,
useprefix, false));
}
if (tsc->repeatable)
repeatable = deparse_expression((Node *) tsc->repeatable, context,
useprefix, false);
else
repeatable = NULL;
/* Print results */
if (es->format == EXPLAIN_FORMAT_TEXT)
{
bool first = true;
ExplainIndentText(es);
appendStringInfo(es->str, "Sampling: %s (", method_name);
foreach(lc, params)
{
if (!first)
appendStringInfoString(es->str, ", ");
appendStringInfoString(es->str, (const char *) lfirst(lc));
first = false;
}
appendStringInfoChar(es->str, ')');
if (repeatable)
appendStringInfo(es->str, " REPEATABLE (%s)", repeatable);
appendStringInfoChar(es->str, '\n');
}
else
{
ExplainPropertyText("Sampling Method", method_name, es);
ExplainPropertyList("Sampling Parameters", params, es);
if (repeatable)
ExplainPropertyText("Repeatable Seed", repeatable, es);
}
}
/*
* If it's EXPLAIN ANALYZE, show tuplesort stats for a sort node
*/
static void
show_sort_info(SortState *sortstate, ExplainState *es)
{
if (!es->analyze)
return;
if (sortstate->sort_Done && sortstate->tuplesortstate != NULL)
{
Tuplesortstate *state = (Tuplesortstate *) sortstate->tuplesortstate;
TuplesortInstrumentation stats;
const char *sortMethod;
const char *spaceType;
int64 spaceUsed;
tuplesort_get_stats(state, &stats);
sortMethod = tuplesort_method_name(stats.sortMethod);
spaceType = tuplesort_space_type_name(stats.spaceType);
spaceUsed = stats.spaceUsed;
if (es->format == EXPLAIN_FORMAT_TEXT)
{
ExplainIndentText(es);
appendStringInfo(es->str, "Sort Method: %s %s: " INT64_FORMAT "kB\n",
sortMethod, spaceType, spaceUsed);
}
else
{
ExplainPropertyText("Sort Method", sortMethod, es);
ExplainPropertyInteger("Sort Space Used", "kB", spaceUsed, es);
ExplainPropertyText("Sort Space Type", spaceType, es);
}
}
/*
* You might think we should just skip this stanza entirely when
* es->hide_workers is true, but then we'd get no sort-method output at
* all. We have to make it look like worker 0's data is top-level data.
* This is easily done by just skipping the OpenWorker/CloseWorker calls.
* Currently, we don't worry about the possibility that there are multiple
* workers in such a case; if there are, duplicate output fields will be
* emitted.
*/
if (sortstate->shared_info != NULL)
{
int n;
for (n = 0; n < sortstate->shared_info->num_workers; n++)
{
TuplesortInstrumentation *sinstrument;
const char *sortMethod;
const char *spaceType;
int64 spaceUsed;
sinstrument = &sortstate->shared_info->sinstrument[n];
if (sinstrument->sortMethod == SORT_TYPE_STILL_IN_PROGRESS)
continue; /* ignore any unfilled slots */
sortMethod = tuplesort_method_name(sinstrument->sortMethod);
spaceType = tuplesort_space_type_name(sinstrument->spaceType);
spaceUsed = sinstrument->spaceUsed;
if (es->workers_state)
ExplainOpenWorker(n, es);
if (es->format == EXPLAIN_FORMAT_TEXT)
{
ExplainIndentText(es);
appendStringInfo(es->str,
"Sort Method: %s %s: " INT64_FORMAT "kB\n",
sortMethod, spaceType, spaceUsed);
}
else
{
ExplainPropertyText("Sort Method", sortMethod, es);
ExplainPropertyInteger("Sort Space Used", "kB", spaceUsed, es);
ExplainPropertyText("Sort Space Type", spaceType, es);
}
if (es->workers_state)
ExplainCloseWorker(n, es);
}
}
}
/*
* Incremental sort nodes sort in (a potentially very large number of) batches,
* so EXPLAIN ANALYZE needs to roll up the tuplesort stats from each batch into
* an intelligible summary.
*
* This function is used for both a non-parallel node and each worker in a
* parallel incremental sort node.
*/
static void
show_incremental_sort_group_info(IncrementalSortGroupInfo *groupInfo,
const char *groupLabel, bool indent, ExplainState *es)
{
ListCell *methodCell;
List *methodNames = NIL;
/* Generate a list of sort methods used across all groups. */
for (int bit = 0; bit < NUM_TUPLESORTMETHODS; bit++)
{
TuplesortMethod sortMethod = (1 << bit);
if (groupInfo->sortMethods & sortMethod)
{
const char *methodName = tuplesort_method_name(sortMethod);
methodNames = lappend(methodNames, unconstify(char *, methodName));
}
}
if (es->format == EXPLAIN_FORMAT_TEXT)
{
if (indent)
appendStringInfoSpaces(es->str, es->indent * 2);
appendStringInfo(es->str, "%s Groups: " INT64_FORMAT " Sort Method", groupLabel,
groupInfo->groupCount);
/* plural/singular based on methodNames size */
if (list_length(methodNames) > 1)
appendStringInfoString(es->str, "s: ");
else
appendStringInfoString(es->str, ": ");
foreach(methodCell, methodNames)
{
appendStringInfoString(es->str, (char *) methodCell->ptr_value);
if (foreach_current_index(methodCell) < list_length(methodNames) - 1)
appendStringInfoString(es->str, ", ");
}
if (groupInfo->maxMemorySpaceUsed > 0)
{
int64 avgSpace = groupInfo->totalMemorySpaceUsed / groupInfo->groupCount;
const char *spaceTypeName;
spaceTypeName = tuplesort_space_type_name(SORT_SPACE_TYPE_MEMORY);
appendStringInfo(es->str, " Average %s: " INT64_FORMAT "kB Peak %s: " INT64_FORMAT "kB",
spaceTypeName, avgSpace,
spaceTypeName, groupInfo->maxMemorySpaceUsed);
}
if (groupInfo->maxDiskSpaceUsed > 0)
{
int64 avgSpace = groupInfo->totalDiskSpaceUsed / groupInfo->groupCount;
const char *spaceTypeName;
spaceTypeName = tuplesort_space_type_name(SORT_SPACE_TYPE_DISK);
appendStringInfo(es->str, " Average %s: " INT64_FORMAT "kB Peak %s: " INT64_FORMAT "kB",
spaceTypeName, avgSpace,
spaceTypeName, groupInfo->maxDiskSpaceUsed);
}
}
else
{
StringInfoData groupName;
initStringInfo(&groupName);
appendStringInfo(&groupName, "%s Groups", groupLabel);
ExplainOpenGroup("Incremental Sort Groups", groupName.data, true, es);
ExplainPropertyInteger("Group Count", NULL, groupInfo->groupCount, es);
ExplainPropertyList("Sort Methods Used", methodNames, es);
if (groupInfo->maxMemorySpaceUsed > 0)
{
int64 avgSpace = groupInfo->totalMemorySpaceUsed / groupInfo->groupCount;
const char *spaceTypeName;
StringInfoData memoryName;
spaceTypeName = tuplesort_space_type_name(SORT_SPACE_TYPE_MEMORY);
initStringInfo(&memoryName);
appendStringInfo(&memoryName, "Sort Space %s", spaceTypeName);
ExplainOpenGroup("Sort Space", memoryName.data, true, es);
ExplainPropertyInteger("Average Sort Space Used", "kB", avgSpace, es);
ExplainPropertyInteger("Peak Sort Space Used", "kB",
groupInfo->maxMemorySpaceUsed, es);
ExplainCloseGroup("Sort Space", memoryName.data, true, es);
}
if (groupInfo->maxDiskSpaceUsed > 0)
{
int64 avgSpace = groupInfo->totalDiskSpaceUsed / groupInfo->groupCount;
const char *spaceTypeName;
StringInfoData diskName;
spaceTypeName = tuplesort_space_type_name(SORT_SPACE_TYPE_DISK);
initStringInfo(&diskName);
appendStringInfo(&diskName, "Sort Space %s", spaceTypeName);
ExplainOpenGroup("Sort Space", diskName.data, true, es);
ExplainPropertyInteger("Average Sort Space Used", "kB", avgSpace, es);
ExplainPropertyInteger("Peak Sort Space Used", "kB",
groupInfo->maxDiskSpaceUsed, es);
ExplainCloseGroup("Sort Space", diskName.data, true, es);
}
ExplainCloseGroup("Incremental Sort Groups", groupName.data, true, es);
}
}
/*
* If it's EXPLAIN ANALYZE, show tuplesort stats for an incremental sort node
*/
static void
show_incremental_sort_info(IncrementalSortState *incrsortstate,
ExplainState *es)
{
IncrementalSortGroupInfo *fullsortGroupInfo;
IncrementalSortGroupInfo *prefixsortGroupInfo;
fullsortGroupInfo = &incrsortstate->incsort_info.fullsortGroupInfo;
if (!es->analyze)
return;
/*
* Since we never have any prefix groups unless we've first sorted a full
* groups and transitioned modes (copying the tuples into a prefix group),
* we don't need to do anything if there were 0 full groups.
*
* We still have to continue after this block if there are no full groups,
* though, since it's possible that we have workers that did real work
* even if the leader didn't participate.
*/
if (fullsortGroupInfo->groupCount > 0)
{
show_incremental_sort_group_info(fullsortGroupInfo, "Full-sort", true, es);
prefixsortGroupInfo = &incrsortstate->incsort_info.prefixsortGroupInfo;
if (prefixsortGroupInfo->groupCount > 0)
{
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfoChar(es->str, '\n');
show_incremental_sort_group_info(prefixsortGroupInfo, "Pre-sorted", true, es);
}
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfoChar(es->str, '\n');
}
if (incrsortstate->shared_info != NULL)
{
int n;
bool indent_first_line;
for (n = 0; n < incrsortstate->shared_info->num_workers; n++)
{
IncrementalSortInfo *incsort_info =
&incrsortstate->shared_info->sinfo[n];
/*
* If a worker hasn't processed any sort groups at all, then
* exclude it from output since it either didn't launch or didn't
* contribute anything meaningful.
*/
fullsortGroupInfo = &incsort_info->fullsortGroupInfo;
/*
* Since we never have any prefix groups unless we've first sorted
* a full groups and transitioned modes (copying the tuples into a
* prefix group), we don't need to do anything if there were 0
* full groups.
*/
if (fullsortGroupInfo->groupCount == 0)
continue;
if (es->workers_state)
ExplainOpenWorker(n, es);
indent_first_line = es->workers_state == NULL || es->verbose;
show_incremental_sort_group_info(fullsortGroupInfo, "Full-sort",
indent_first_line, es);
prefixsortGroupInfo = &incsort_info->prefixsortGroupInfo;
if (prefixsortGroupInfo->groupCount > 0)
{
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfoChar(es->str, '\n');
show_incremental_sort_group_info(prefixsortGroupInfo, "Pre-sorted", true, es);
}
if (es->format == EXPLAIN_FORMAT_TEXT)
appendStringInfoChar(es->str, '\n');
if (es->workers_state)
ExplainCloseWorker(n, es);
}
}
}
/*
* Show information on hash buckets/batches.
*/
static void
show_hash_info(HashState *hashstate, ExplainState *es)
{
HashInstrumentation hinstrument = {0};
/*
* Collect stats from the local process, even when it's a parallel query.
* In a parallel query, the leader process may or may not have run the
* hash join, and even if it did it may not have built a hash table due to
* timing (if it started late it might have seen no tuples in the outer
* relation and skipped building the hash table). Therefore we have to be
* prepared to get instrumentation data from all participants.
*/
if (hashstate->hinstrument)
memcpy(&hinstrument, hashstate->hinstrument,
sizeof(HashInstrumentation));
/*
* Merge results from workers. In the parallel-oblivious case, the
* results from all participants should be identical, except where
* participants didn't run the join at all so have no data. In the
* parallel-aware case, we need to consider all the results. Each worker
* may have seen a different subset of batches and we want to report the
* highest memory usage across all batches. We take the maxima of other
* values too, for the same reasons as in ExecHashAccumInstrumentation.
*/
if (hashstate->shared_info)
{
SharedHashInfo *shared_info = hashstate->shared_info;
int i;
for (i = 0; i < shared_info->num_workers; ++i)
{
HashInstrumentation *worker_hi = &shared_info->hinstrument[i];
hinstrument.nbuckets = Max(hinstrument.nbuckets,
worker_hi->nbuckets);
hinstrument.nbuckets_original = Max(hinstrument.nbuckets_original,
worker_hi->nbuckets_original);
hinstrument.nbatch = Max(hinstrument.nbatch,
worker_hi->nbatch);
hinstrument.nbatch_original = Max(hinstrument.nbatch_original,
worker_hi->nbatch_original);
hinstrument.space_peak = Max(hinstrument.space_peak,
worker_hi->space_peak);
}
}
if (hinstrument.nbatch > 0)
{
long spacePeakKb = (hinstrument.space_peak + 1023) / 1024;
if (es->format != EXPLAIN_FORMAT_TEXT)
{
ExplainPropertyInteger("Hash Buckets", NULL,
hinstrument.nbuckets, es);
ExplainPropertyInteger("Original Hash Buckets", NULL,
hinstrument.nbuckets_original, es);
ExplainPropertyInteger("Hash Batches", NULL,
hinstrument.nbatch, es);
ExplainPropertyInteger("Original Hash Batches", NULL,
hinstrument.nbatch_original, es);
ExplainPropertyInteger("Peak Memory Usage", "kB",
spacePeakKb, es);
}
else if (hinstrument.nbatch_original != hinstrument.nbatch ||
hinstrument.nbuckets_original != hinstrument.nbuckets)
{
ExplainIndentText(es);
appendStringInfo(es->str,
"Buckets: %d (originally %d) Batches: %d (originally %d) Memory Usage: %ldkB\n",
hinstrument.nbuckets,
hinstrument.nbuckets_original,
hinstrument.nbatch,
hinstrument.nbatch_original,
spacePeakKb);
}
else
{
ExplainIndentText(es);
appendStringInfo(es->str,
"Buckets: %d Batches: %d Memory Usage: %ldkB\n",
hinstrument.nbuckets, hinstrument.nbatch,
spacePeakKb);
}
}
}
/*
* Show information on memoize hits/misses/evictions and memory usage.
*/
static void
show_memoize_info(MemoizeState *mstate, List *ancestors, ExplainState *es)
{
Plan *plan = ((PlanState *) mstate)->plan;
ListCell *lc;
List *context;
StringInfoData keystr;
char *separator = "";
bool useprefix;
int64 memPeakKb;
initStringInfo(&keystr);
/*
* It's hard to imagine having a memoize node with fewer than 2 RTEs, but
* let's just keep the same useprefix logic as elsewhere in this file.
*/
useprefix = list_length(es->rtable) > 1 || es->verbose;
/* Set up deparsing context */
context = set_deparse_context_plan(es->deparse_cxt,
plan,
ancestors);
foreach(lc, ((Memoize *) plan)->param_exprs)
{
Node *expr = (Node *) lfirst(lc);
appendStringInfoString(&keystr, separator);
appendStringInfoString(&keystr, deparse_expression(expr, context,
useprefix, false));
separator = ", ";
}
if (es->format != EXPLAIN_FORMAT_TEXT)
{
ExplainPropertyText("Cache Key", keystr.data, es);
ExplainPropertyText("Cache Mode", mstate->binary_mode ? "binary" : "logical", es);
}
else
{
ExplainIndentText(es);
appendStringInfo(es->str, "Cache Key: %s\n", keystr.data);
ExplainIndentText(es);
appendStringInfo(es->str, "Cache Mode: %s\n", mstate->binary_mode ? "binary" : "logical");
}
pfree(keystr.data);
if (!es->analyze)
return;
if (mstate->stats.cache_misses > 0)
{
/*
* mem_peak is only set when we freed memory, so we must use mem_used
* when mem_peak is 0.
*/
if (mstate->stats.mem_peak > 0)
memPeakKb = (mstate->stats.mem_peak + 1023) / 1024;
else
memPeakKb = (mstate->mem_used + 1023) / 1024;
if (es->format != EXPLAIN_FORMAT_TEXT)
{
ExplainPropertyInteger("Cache Hits", NULL, mstate->stats.cache_hits, es);
ExplainPropertyInteger("Cache Misses", NULL, mstate->stats.cache_misses, es);
ExplainPropertyInteger("Cache Evictions", NULL, mstate->stats.cache_evictions, es);
ExplainPropertyInteger("Cache Overflows", NULL, mstate->stats.cache_overflows, es);
ExplainPropertyInteger("Peak Memory Usage", "kB", memPeakKb, es);
}
else
{
ExplainIndentText(es);
appendStringInfo(es->str,
"Hits: " UINT64_FORMAT " Misses: " UINT64_FORMAT " Evictions: " UINT64_FORMAT " Overflows: " UINT64_FORMAT " Memory Usage: " INT64_FORMAT "kB\n",
mstate->stats.cache_hits,
mstate->stats.cache_misses,
mstate->stats.cache_evictions,
mstate->stats.cache_overflows,
memPeakKb);
}
}
if (mstate->shared_info == NULL)
return;
/* Show details from parallel workers */
for (int n = 0; n < mstate->shared_info->num_workers; n++)
{
MemoizeInstrumentation *si;
si = &mstate->shared_info->sinstrument[n];
/*
* Skip workers that didn't do any work. We needn't bother checking
* for cache hits as a miss will always occur before a cache hit.
*/
if (si->cache_misses == 0)
continue;
if (es->workers_state)
ExplainOpenWorker(n, es);
/*
* Since the worker's MemoizeState.mem_used field is unavailable to
* us, ExecEndMemoize will have set the
* MemoizeInstrumentation.mem_peak field for us. No need to do the
* zero checks like we did for the serial case above.
*/
memPeakKb = (si->mem_peak + 1023) / 1024;
if (es->format == EXPLAIN_FORMAT_TEXT)
{
ExplainIndentText(es);
appendStringInfo(es->str,
"Hits: " UINT64_FORMAT " Misses: " UINT64_FORMAT " Evictions: " UINT64_FORMAT " Overflows: " UINT64_FORMAT " Memory Usage: " INT64_FORMAT "kB\n",
si->cache_hits, si->cache_misses,
si->cache_evictions, si->cache_overflows,
memPeakKb);
}
else
{
ExplainPropertyInteger("Cache Hits", NULL,
si->cache_hits, es);
ExplainPropertyInteger("Cache Misses", NULL,
si->cache_misses, es);
ExplainPropertyInteger("Cache Evictions", NULL,
si->cache_evictions, es);
ExplainPropertyInteger("Cache Overflows", NULL,
si->cache_overflows, es);
ExplainPropertyInteger("Peak Memory Usage", "kB", memPeakKb,
es);
}
if (es->workers_state)
ExplainCloseWorker(n, es);
}
}
/*
* Show information on hash aggregate memory usage and batches.
*/
static void
show_hashagg_info(AggState *aggstate, ExplainState *es)
{
Agg *agg = (Agg *) aggstate->ss.ps.plan;
int64 memPeakKb = (aggstate->hash_mem_peak + 1023) / 1024;
if (agg->aggstrategy != AGG_HASHED &&
agg->aggstrategy != AGG_MIXED)
return;
if (es->format != EXPLAIN_FORMAT_TEXT)
{
if (es->costs)
ExplainPropertyInteger("Planned Partitions", NULL,
aggstate->hash_planned_partitions, es);
/*
* During parallel query the leader may have not helped out. We
* detect this by checking how much memory it used. If we find it
* didn't do any work then we don't show its properties.
*/
if (es->analyze && aggstate->hash_mem_peak > 0)
{
ExplainPropertyInteger("HashAgg Batches", NULL,
aggstate->hash_batches_used, es);
ExplainPropertyInteger("Peak Memory Usage", "kB", memPeakKb, es);
ExplainPropertyInteger("Disk Usage", "kB",
aggstate->hash_disk_used, es);
}
}
else
{
bool gotone = false;
if (es->costs && aggstate->hash_planned_partitions > 0)
{
ExplainIndentText(es);
appendStringInfo(es->str, "Planned Partitions: %d",
aggstate->hash_planned_partitions);
gotone = true;
}
/*
* During parallel query the leader may have not helped out. We
* detect this by checking how much memory it used. If we find it
* didn't do any work then we don't show its properties.
*/
if (es->analyze && aggstate->hash_mem_peak > 0)
{
if (!gotone)
ExplainIndentText(es);
else
appendStringInfoSpaces(es->str, 2);
appendStringInfo(es->str, "Batches: %d Memory Usage: " INT64_FORMAT "kB",
aggstate->hash_batches_used, memPeakKb);
gotone = true;
/* Only display disk usage if we spilled to disk */
if (aggstate->hash_batches_used > 1)
{
appendStringInfo(es->str, " Disk Usage: " UINT64_FORMAT "kB",
aggstate->hash_disk_used);
}
}
if (gotone)
appendStringInfoChar(es->str, '\n');
}
/* Display stats for each parallel worker */
if (es->analyze && aggstate->shared_info != NULL)
{
for (int n = 0; n < aggstate->shared_info->num_workers; n++)
{
AggregateInstrumentation *sinstrument;
uint64 hash_disk_used;
int hash_batches_used;
sinstrument = &aggstate->shared_info->sinstrument[n];
/* Skip workers that didn't do anything */
if (sinstrument->hash_mem_peak == 0)
continue;
hash_disk_used = sinstrument->hash_disk_used;
hash_batches_used = sinstrument->hash_batches_used;
memPeakKb = (sinstrument->hash_mem_peak + 1023) / 1024;
if (es->workers_state)
ExplainOpenWorker(n, es);
if (es->format == EXPLAIN_FORMAT_TEXT)
{
ExplainIndentText(es);
appendStringInfo(es->str, "Batches: %d Memory Usage: " INT64_FORMAT "kB",
hash_batches_used, memPeakKb);
/* Only display disk usage if we spilled to disk */
if (hash_batches_used > 1)
appendStringInfo(es->str, " Disk Usage: " UINT64_FORMAT "kB",
hash_disk_used);
appendStringInfoChar(es->str, '\n');
}
else
{
ExplainPropertyInteger("HashAgg Batches", NULL,
hash_batches_used, es);
ExplainPropertyInteger("Peak Memory Usage", "kB", memPeakKb,
es);
ExplainPropertyInteger("Disk Usage", "kB", hash_disk_used, es);
}
if (es->workers_state)
ExplainCloseWorker(n, es);
}
}
}
/*
* If it's EXPLAIN ANALYZE, show exact/lossy pages for a BitmapHeapScan node
*/
static void
show_tidbitmap_info(BitmapHeapScanState *planstate, ExplainState *es)
{
if (es->format != EXPLAIN_FORMAT_TEXT)
{
ExplainPropertyInteger("Exact Heap Blocks", NULL,
planstate->exact_pages, es);
ExplainPropertyInteger("Lossy Heap Blocks", NULL,
planstate->lossy_pages, es);
}
else
{
if (planstate->exact_pages > 0 || planstate->lossy_pages > 0)
{
ExplainIndentText(es);
appendStringInfoString(es->str, "Heap Blocks:");
if (planstate->exact_pages > 0)
appendStringInfo(es->str, " exact=%ld", planstate->exact_pages);
if (planstate->lossy_pages > 0)
appendStringInfo(es->str, " lossy=%ld", planstate->lossy_pages);
appendStringInfoChar(es->str, '\n');
}
}
}
/*
* If it's EXPLAIN ANALYZE, show instrumentation information for a plan node
*
* "which" identifies which instrumentation counter to print
*/
static void
show_instrumentation_count(const char *qlabel, int which,
PlanState *planstate, ExplainState *es)
{
double nfiltered;
double nloops;
if (!es->analyze || !planstate->instrument)
return;
if (which == 2)
nfiltered = planstate->instrument->nfiltered2;
else
nfiltered = planstate->instrument->nfiltered1;
nloops = planstate->instrument->nloops;
/* In text mode, suppress zero counts; they're not interesting enough */
if (nfiltered > 0 || es->format != EXPLAIN_FORMAT_TEXT)
{
if (nloops > 0)
ExplainPropertyFloat(qlabel, NULL, nfiltered / nloops, 0, es);
else
ExplainPropertyFloat(qlabel, NULL, 0.0, 0, es);
}
}
/*
* Show extra information for a ForeignScan node.
*/
static void
show_foreignscan_info(ForeignScanState *fsstate, ExplainState *es)
{
FdwRoutine *fdwroutine = fsstate->fdwroutine;
/* Let the FDW emit whatever fields it wants */
if (((ForeignScan *) fsstate->ss.ps.plan)->operation != CMD_SELECT)
{
if (fdwroutine->ExplainDirectModify != NULL)
fdwroutine->ExplainDirectModify(fsstate, es);
}
else
{
if (fdwroutine->ExplainForeignScan != NULL)
fdwroutine->ExplainForeignScan(fsstate, es);
}
}
/*
* Show initplan params evaluated at Gather or Gather Merge node.
*/
static void
show_eval_params(Bitmapset *bms_params, ExplainState *es)
{
int paramid = -1;
List *params = NIL;
Assert(bms_params);
while ((paramid = bms_next_member(bms_params, paramid)) >= 0)
{
char param[32];
snprintf(param, sizeof(param), "$%d", paramid);
params = lappend(params, pstrdup(param));
}
if (params)
ExplainPropertyList("Params Evaluated", params, es);
}
/*
* Fetch the name of an index in an EXPLAIN
*
* We allow plugins to get control here so that plans involving hypothetical
* indexes can be explained.
*
* Note: names returned by this function should be "raw"; the caller will
* apply quoting if needed. Formerly the convention was to do quoting here,
* but we don't want that in non-text output formats.
*/
static const char *
explain_get_index_name(Oid indexId)
{
const char *result;
if (explain_get_index_name_hook)
result = (*explain_get_index_name_hook) (indexId);
else
result = NULL;
if (result == NULL)
{
/* default behavior: look it up in the catalogs */
result = get_rel_name(indexId);
if (result == NULL)
elog(ERROR, "cache lookup failed for index %u", indexId);
}
return result;
}
/*
* Show buffer usage details.
*/
static void
show_buffer_usage(ExplainState *es, const BufferUsage *usage, bool planning)
{
if (es->format == EXPLAIN_FORMAT_TEXT)
{
bool has_shared = (usage->shared_blks_hit > 0 ||
usage->shared_blks_read > 0 ||
usage->shared_blks_dirtied > 0 ||
usage->shared_blks_written > 0);
bool has_local = (usage->local_blks_hit > 0 ||
usage->local_blks_read > 0 ||
usage->local_blks_dirtied > 0 ||
usage->local_blks_written > 0);
bool has_temp = (usage->temp_blks_read > 0 ||
usage->temp_blks_written > 0);
bool has_timing = (!INSTR_TIME_IS_ZERO(usage->blk_read_time) ||
!INSTR_TIME_IS_ZERO(usage->blk_write_time));
bool has_temp_timing = (!INSTR_TIME_IS_ZERO(usage->temp_blk_read_time) ||
!INSTR_TIME_IS_ZERO(usage->temp_blk_write_time));
bool show_planning = (planning && (has_shared ||
has_local || has_temp || has_timing ||
has_temp_timing));
if (show_planning)
{
ExplainIndentText(es);
appendStringInfoString(es->str, "Planning:\n");
es->indent++;
}
/* Show only positive counter values. */
if (has_shared || has_local || has_temp)
{
ExplainIndentText(es);
appendStringInfoString(es->str, "Buffers:");
if (has_shared)
{
appendStringInfoString(es->str, " shared");
if (usage->shared_blks_hit > 0)
appendStringInfo(es->str, " hit=%lld",
(long long) usage->shared_blks_hit);
if (usage->shared_blks_read > 0)
appendStringInfo(es->str, " read=%lld",
(long long) usage->shared_blks_read);
if (usage->shared_blks_dirtied > 0)
appendStringInfo(es->str, " dirtied=%lld",
(long long) usage->shared_blks_dirtied);
if (usage->shared_blks_written > 0)
appendStringInfo(es->str, " written=%lld",
(long long) usage->shared_blks_written);
if (has_local || has_temp)
appendStringInfoChar(es->str, ',');
}
if (has_local)
{
appendStringInfoString(es->str, " local");
if (usage->local_blks_hit > 0)
appendStringInfo(es->str, " hit=%lld",
(long long) usage->local_blks_hit);
if (usage->local_blks_read > 0)
appendStringInfo(es->str, " read=%lld",
(long long) usage->local_blks_read);
if (usage->local_blks_dirtied > 0)
appendStringInfo(es->str, " dirtied=%lld",
(long long) usage->local_blks_dirtied);
if (usage->local_blks_written > 0)
appendStringInfo(es->str, " written=%lld",
(long long) usage->local_blks_written);
if (has_temp)
appendStringInfoChar(es->str, ',');
}
if (has_temp)
{
appendStringInfoString(es->str, " temp");
if (usage->temp_blks_read > 0)
appendStringInfo(es->str, " read=%lld",
(long long) usage->temp_blks_read);
if (usage->temp_blks_written > 0)
appendStringInfo(es->str, " written=%lld",
(long long) usage->temp_blks_written);
}
appendStringInfoChar(es->str, '\n');
}
/* As above, show only positive counter values. */
if (has_timing || has_temp_timing)
{
ExplainIndentText(es);
appendStringInfoString(es->str, "I/O Timings:");
if (has_timing)
{
appendStringInfoString(es->str, " shared");
if (!INSTR_TIME_IS_ZERO(usage->blk_read_time))
appendStringInfo(es->str, " read=%0.3f",
INSTR_TIME_GET_MILLISEC(usage->blk_read_time));
if (!INSTR_TIME_IS_ZERO(usage->blk_write_time))
appendStringInfo(es->str, " write=%0.3f",
INSTR_TIME_GET_MILLISEC(usage->blk_write_time));
if (has_temp_timing)
appendStringInfoChar(es->str, ',');
}
if (has_temp_timing)
{
appendStringInfoString(es->str, " temp");
if (!INSTR_TIME_IS_ZERO(usage->temp_blk_read_time))
appendStringInfo(es->str, " read=%0.3f",
INSTR_TIME_GET_MILLISEC(usage->temp_blk_read_time));
if (!INSTR_TIME_IS_ZERO(usage->temp_blk_write_time))
appendStringInfo(es->str, " write=%0.3f",
INSTR_TIME_GET_MILLISEC(usage->temp_blk_write_time));
}
appendStringInfoChar(es->str, '\n');
}
if (show_planning)
es->indent--;
}
else
{
ExplainPropertyInteger("Shared Hit Blocks", NULL,
usage->shared_blks_hit, es);
ExplainPropertyInteger("Shared Read Blocks", NULL,
usage->shared_blks_read, es);
ExplainPropertyInteger("Shared Dirtied Blocks", NULL,
usage->shared_blks_dirtied, es);
ExplainPropertyInteger("Shared Written Blocks", NULL,
usage->shared_blks_written, es);
ExplainPropertyInteger("Local Hit Blocks", NULL,
usage->local_blks_hit, es);
ExplainPropertyInteger("Local Read Blocks", NULL,
usage->local_blks_read, es);
ExplainPropertyInteger("Local Dirtied Blocks", NULL,
usage->local_blks_dirtied, es);
ExplainPropertyInteger("Local Written Blocks", NULL,
usage->local_blks_written, es);
ExplainPropertyInteger("Temp Read Blocks", NULL,
usage->temp_blks_read, es);
ExplainPropertyInteger("Temp Written Blocks", NULL,
usage->temp_blks_written, es);
if (track_io_timing)
{
ExplainPropertyFloat("I/O Read Time", "ms",
INSTR_TIME_GET_MILLISEC(usage->blk_read_time),
3, es);
ExplainPropertyFloat("I/O Write Time", "ms",
INSTR_TIME_GET_MILLISEC(usage->blk_write_time),
3, es);
ExplainPropertyFloat("Temp I/O Read Time", "ms",
INSTR_TIME_GET_MILLISEC(usage->temp_blk_read_time),
3, es);
ExplainPropertyFloat("Temp I/O Write Time", "ms",
INSTR_TIME_GET_MILLISEC(usage->temp_blk_write_time),
3, es);
}
}
}
/*
* Show WAL usage details.
*/
static void
show_wal_usage(ExplainState *es, const WalUsage *usage)
{
if (es->format == EXPLAIN_FORMAT_TEXT)
{
/* Show only positive counter values. */
if ((usage->wal_records > 0) || (usage->wal_fpi > 0) ||
(usage->wal_bytes > 0))
{
ExplainIndentText(es);
appendStringInfoString(es->str, "WAL:");
if (usage->wal_records > 0)
appendStringInfo(es->str, " records=%lld",
(long long) usage->wal_records);
if (usage->wal_fpi > 0)
appendStringInfo(es->str, " fpi=%lld",
(long long) usage->wal_fpi);
if (usage->wal_bytes > 0)
appendStringInfo(es->str, " bytes=" UINT64_FORMAT,
usage->wal_bytes);
appendStringInfoChar(es->str, '\n');
}
}
else
{
ExplainPropertyInteger("WAL Records", NULL,
usage->wal_records, es);
ExplainPropertyInteger("WAL FPI", NULL,
usage->wal_fpi, es);
ExplainPropertyUInteger("WAL Bytes", NULL,
usage->wal_bytes, es);
}
}
/*
* Add some additional details about an IndexScan or IndexOnlyScan
*/
static void
ExplainIndexScanDetails(Oid indexid, ScanDirection indexorderdir,
ExplainState *es)
{
const char *indexname = explain_get_index_name(indexid);
if (es->format == EXPLAIN_FORMAT_TEXT)
{
if (ScanDirectionIsBackward(indexorderdir))
appendStringInfoString(es->str, " Backward");
appendStringInfo(es->str, " using %s", quote_identifier(indexname));
}
else
{
const char *scandir;
switch (indexorderdir)
{
case BackwardScanDirection:
scandir = "Backward";
break;
case ForwardScanDirection:
scandir = "Forward";
break;
default:
scandir = "???";
break;
}
ExplainPropertyText("Scan Direction", scandir, es);
ExplainPropertyText("Index Name", indexname, es);
}
}
/*
* Show the target of a Scan node
*/
static void
ExplainScanTarget(Scan *plan, ExplainState *es)
{
ExplainTargetRel((Plan *) plan, plan->scanrelid, es);
}
/*
* Show the target of a ModifyTable node
*
* Here we show the nominal target (ie, the relation that was named in the
* original query). If the actual target(s) is/are different, we'll show them
* in show_modifytable_info().
*/
static void
ExplainModifyTarget(ModifyTable *plan, ExplainState *es)
{
ExplainTargetRel((Plan *) plan, plan->nominalRelation, es);
}
/*
* Show the target relation of a scan or modify node
*/
static void
ExplainTargetRel(Plan *plan, Index rti, ExplainState *es)
{
char *objectname = NULL;
char *namespace = NULL;
const char *objecttag = NULL;
RangeTblEntry *rte;
char *refname;
rte = rt_fetch(rti, es->rtable);
refname = (char *) list_nth(es->rtable_names, rti - 1);
if (refname == NULL)
refname = rte->eref->aliasname;
switch (nodeTag(plan))
{
case T_SeqScan:
case T_SampleScan:
case T_IndexScan:
case T_IndexOnlyScan:
case T_BitmapHeapScan:
case T_TidScan:
case T_TidRangeScan:
case T_ForeignScan:
case T_CustomScan:
case T_ModifyTable:
/* Assert it's on a real relation */
Assert(rte->rtekind == RTE_RELATION);
objectname = get_rel_name(rte->relid);
if (es->verbose)
namespace = get_namespace_name_or_temp(get_rel_namespace(rte->relid));
objecttag = "Relation Name";
break;
case T_FunctionScan:
{
FunctionScan *fscan = (FunctionScan *) plan;
/* Assert it's on a RangeFunction */
Assert(rte->rtekind == RTE_FUNCTION);
/*
* If the expression is still a function call of a single
* function, we can get the real name of the function.
* Otherwise, punt. (Even if it was a single function call
* originally, the optimizer could have simplified it away.)
*/
if (list_length(fscan->functions) == 1)
{
RangeTblFunction *rtfunc = (RangeTblFunction *) linitial(fscan->functions);
if (IsA(rtfunc->funcexpr, FuncExpr))
{
FuncExpr *funcexpr = (FuncExpr *) rtfunc->funcexpr;
Oid funcid = funcexpr->funcid;
objectname = get_func_name(funcid);
if (es->verbose)
namespace = get_namespace_name_or_temp(get_func_namespace(funcid));
}
}
objecttag = "Function Name";
}
break;
case T_TableFuncScan:
Assert(rte->rtekind == RTE_TABLEFUNC);
objectname = "xmltable";
objecttag = "Table Function Name";
break;
case T_ValuesScan:
Assert(rte->rtekind == RTE_VALUES);
break;
case T_CteScan:
/* Assert it's on a non-self-reference CTE */
Assert(rte->rtekind == RTE_CTE);
Assert(!rte->self_reference);
objectname = rte->ctename;
objecttag = "CTE Name";
break;
case T_NamedTuplestoreScan:
Assert(rte->rtekind == RTE_NAMEDTUPLESTORE);
objectname = rte->enrname;
objecttag = "Tuplestore Name";
break;
case T_WorkTableScan:
/* Assert it's on a self-reference CTE */
Assert(rte->rtekind == RTE_CTE);
Assert(rte->self_reference);
objectname = rte->ctename;
objecttag = "CTE Name";
break;
default:
break;
}
if (es->format == EXPLAIN_FORMAT_TEXT)
{
appendStringInfoString(es->str, " on");
if (namespace != NULL)
appendStringInfo(es->str, " %s.%s", quote_identifier(namespace),
quote_identifier(objectname));
else if (objectname != NULL)
appendStringInfo(es->str, " %s", quote_identifier(objectname));
if (objectname == NULL || strcmp(refname, objectname) != 0)
appendStringInfo(es->str, " %s", quote_identifier(refname));
}
else
{
if (objecttag != NULL && objectname != NULL)
ExplainPropertyText(objecttag, objectname, es);
if (namespace != NULL)
ExplainPropertyText("Schema", namespace, es);
ExplainPropertyText("Alias", refname, es);
}
}
/*
* Show extra information for a ModifyTable node
*
* We have three objectives here. First, if there's more than one target
* table or it's different from the nominal target, identify the actual
* target(s). Second, give FDWs a chance to display extra info about foreign
* targets. Third, show information about ON CONFLICT.
*/
static void
show_modifytable_info(ModifyTableState *mtstate, List *ancestors,
ExplainState *es)
{
ModifyTable *node = (ModifyTable *) mtstate->ps.plan;
const char *operation;
const char *foperation;
bool labeltargets;
int j;
List *idxNames = NIL;
ListCell *lst;
switch (node->operation)
{
case CMD_INSERT:
operation = "Insert";
foperation = "Foreign Insert";
break;
case CMD_UPDATE:
operation = "Update";
foperation = "Foreign Update";
break;
case CMD_DELETE:
operation = "Delete";
foperation = "Foreign Delete";
break;
case CMD_MERGE:
operation = "Merge";
/* XXX unsupported for now, but avoid compiler noise */
foperation = "Foreign Merge";
break;
default:
operation = "???";
foperation = "Foreign ???";
break;
}
/* Should we explicitly label target relations? */
labeltargets = (mtstate->mt_nrels > 1 ||
(mtstate->mt_nrels == 1 &&
mtstate->resultRelInfo[0].ri_RangeTableIndex != node->nominalRelation));
if (labeltargets)
ExplainOpenGroup("Target Tables", "Target Tables", false, es);
for (j = 0; j < mtstate->mt_nrels; j++)
{
ResultRelInfo *resultRelInfo = mtstate->resultRelInfo + j;
FdwRoutine *fdwroutine = resultRelInfo->ri_FdwRoutine;
if (labeltargets)
{
/* Open a group for this target */
ExplainOpenGroup("Target Table", NULL, true, es);
/*
* In text mode, decorate each target with operation type, so that
* ExplainTargetRel's output of " on foo" will read nicely.
*/
if (es->format == EXPLAIN_FORMAT_TEXT)
{
ExplainIndentText(es);
appendStringInfoString(es->str,
fdwroutine ? foperation : operation);
}
/* Identify target */
ExplainTargetRel((Plan *) node,
resultRelInfo->ri_RangeTableIndex,
es);
if (es->format == EXPLAIN_FORMAT_TEXT)
{
appendStringInfoChar(es->str, '\n');
es->indent++;
}
}
/* Give FDW a chance if needed */
if (!resultRelInfo->ri_usesFdwDirectModify &&
fdwroutine != NULL &&
fdwroutine->ExplainForeignModify != NULL)
{
List *fdw_private = (List *) list_nth(node->fdwPrivLists, j);
fdwroutine->ExplainForeignModify(mtstate,
resultRelInfo,
fdw_private,
j,
es);
}
if (labeltargets)
{
/* Undo the indentation we added in text format */
if (es->format == EXPLAIN_FORMAT_TEXT)
es->indent--;
/* Close the group */
ExplainCloseGroup("Target Table", NULL, true, es);
}
}
/* Gather names of ON CONFLICT arbiter indexes */
foreach(lst, node->arbiterIndexes)
{
char *indexname = get_rel_name(lfirst_oid(lst));
idxNames = lappend(idxNames, indexname);
}
if (node->onConflictAction != ONCONFLICT_NONE)
{
ExplainPropertyText("Conflict Resolution",
node->onConflictAction == ONCONFLICT_NOTHING ?
"NOTHING" : "UPDATE",
es);
/*
* Don't display arbiter indexes at all when DO NOTHING variant
* implicitly ignores all conflicts
*/
if (idxNames)
ExplainPropertyList("Conflict Arbiter Indexes", idxNames, es);
/* ON CONFLICT DO UPDATE WHERE qual is specially displayed */
if (node->onConflictWhere)
{
show_upper_qual((List *) node->onConflictWhere, "Conflict Filter",
&mtstate->ps, ancestors, es);
show_instrumentation_count("Rows Removed by Conflict Filter", 1, &mtstate->ps, es);
}
/* EXPLAIN ANALYZE display of actual outcome for each tuple proposed */
if (es->analyze && mtstate->ps.instrument)
{
double total;
double insert_path;
double other_path;
InstrEndLoop(outerPlanState(mtstate)->instrument);
/* count the number of source rows */
total = outerPlanState(mtstate)->instrument->ntuples;
other_path = mtstate->ps.instrument->ntuples2;
insert_path = total - other_path;
ExplainPropertyFloat("Tuples Inserted", NULL,
insert_path, 0, es);
ExplainPropertyFloat("Conflicting Tuples", NULL,
other_path, 0, es);
}
}
else if (node->operation == CMD_MERGE)
{
/* EXPLAIN ANALYZE display of tuples processed */
if (es->analyze && mtstate->ps.instrument)
{
double total;
double insert_path;
double update_path;
double delete_path;
double skipped_path;
InstrEndLoop(outerPlanState(mtstate)->instrument);
/* count the number of source rows */
total = outerPlanState(mtstate)->instrument->ntuples;
insert_path = mtstate->mt_merge_inserted;
update_path = mtstate->mt_merge_updated;
delete_path = mtstate->mt_merge_deleted;
skipped_path = total - insert_path - update_path - delete_path;
Assert(skipped_path >= 0);
if (es->format == EXPLAIN_FORMAT_TEXT)
{
if (total > 0)
{
ExplainIndentText(es);
appendStringInfoString(es->str, "Tuples:");
if (insert_path > 0)
appendStringInfo(es->str, " inserted=%.0f", insert_path);
if (update_path > 0)
appendStringInfo(es->str, " updated=%.0f", update_path);
if (delete_path > 0)
appendStringInfo(es->str, " deleted=%.0f", delete_path);
if (skipped_path > 0)
appendStringInfo(es->str, " skipped=%.0f", skipped_path);
appendStringInfoChar(es->str, '\n');
}
}
else
{
ExplainPropertyFloat("Tuples Inserted", NULL, insert_path, 0, es);
ExplainPropertyFloat("Tuples Updated", NULL, update_path, 0, es);
ExplainPropertyFloat("Tuples Deleted", NULL, delete_path, 0, es);
ExplainPropertyFloat("Tuples Skipped", NULL, skipped_path, 0, es);
}
}
}
if (labeltargets)
ExplainCloseGroup("Target Tables", "Target Tables", false, es);
}
/*
* Explain the constituent plans of an Append, MergeAppend,
* BitmapAnd, or BitmapOr node.
*
* The ancestors list should already contain the immediate parent of these
* plans.
*/
static void
ExplainMemberNodes(PlanState **planstates, int nplans,
List *ancestors, ExplainState *es)
{
int j;
for (j = 0; j < nplans; j++)
ExplainNode(planstates[j], ancestors,
"Member", NULL, es);
}
/*
* Report about any pruned subnodes of an Append or MergeAppend node.
*
* nplans indicates the number of live subplans.
* nchildren indicates the original number of subnodes in the Plan;
* some of these may have been pruned by the run-time pruning code.
*/
static void
ExplainMissingMembers(int nplans, int nchildren, ExplainState *es)
{
if (nplans < nchildren || es->format != EXPLAIN_FORMAT_TEXT)
ExplainPropertyInteger("Subplans Removed", NULL,
nchildren - nplans, es);
}
/*
* Explain a list of SubPlans (or initPlans, which also use SubPlan nodes).
*
* The ancestors list should already contain the immediate parent of these
* SubPlans.
*/
static void
ExplainSubPlans(List *plans, List *ancestors,
const char *relationship, ExplainState *es)
{
ListCell *lst;
foreach(lst, plans)
{
SubPlanState *sps = (SubPlanState *) lfirst(lst);
SubPlan *sp = sps->subplan;
/*
* There can be multiple SubPlan nodes referencing the same physical
* subplan (same plan_id, which is its index in PlannedStmt.subplans).
* We should print a subplan only once, so track which ones we already
* printed. This state must be global across the plan tree, since the
* duplicate nodes could be in different plan nodes, eg both a bitmap
* indexscan's indexqual and its parent heapscan's recheck qual. (We
* do not worry too much about which plan node we show the subplan as
* attached to in such cases.)
*/
if (bms_is_member(sp->plan_id, es->printed_subplans))
continue;
es->printed_subplans = bms_add_member(es->printed_subplans,
sp->plan_id);
/*
* Treat the SubPlan node as an ancestor of the plan node(s) within
* it, so that ruleutils.c can find the referents of subplan
* parameters.
*/
ancestors = lcons(sp, ancestors);
ExplainNode(sps->planstate, ancestors,
relationship, sp->plan_name, es);
ancestors = list_delete_first(ancestors);
}
}
/*
* Explain a list of children of a CustomScan.
*/
static void
ExplainCustomChildren(CustomScanState *css, List *ancestors, ExplainState *es)
{
ListCell *cell;
const char *label =
(list_length(css->custom_ps) != 1 ? "children" : "child");
foreach(cell, css->custom_ps)
ExplainNode((PlanState *) lfirst(cell), ancestors, label, NULL, es);
}
/*
* Create a per-plan-node workspace for collecting per-worker data.
*
* Output related to each worker will be temporarily "set aside" into a
* separate buffer, which we'll merge into the main output stream once
* we've processed all data for the plan node. This makes it feasible to
* generate a coherent sub-group of fields for each worker, even though the
* code that produces the fields is in several different places in this file.
* Formatting of such a set-aside field group is managed by
* ExplainOpenSetAsideGroup and ExplainSaveGroup/ExplainRestoreGroup.
*/
static ExplainWorkersState *
ExplainCreateWorkersState(int num_workers)
{
ExplainWorkersState *wstate;
wstate = (ExplainWorkersState *) palloc(sizeof(ExplainWorkersState));
wstate->num_workers = num_workers;
wstate->worker_inited = (bool *) palloc0(num_workers * sizeof(bool));
wstate->worker_str = (StringInfoData *)
palloc0(num_workers * sizeof(StringInfoData));
wstate->worker_state_save = (int *) palloc(num_workers * sizeof(int));
return wstate;
}
/*
* Begin or resume output into the set-aside group for worker N.
*/
static void
ExplainOpenWorker(int n, ExplainState *es)
{
ExplainWorkersState *wstate = es->workers_state;
Assert(wstate);
Assert(n >= 0 && n < wstate->num_workers);
/* Save prior output buffer pointer */
wstate->prev_str = es->str;
if (!wstate->worker_inited[n])
{
/* First time through, so create the buffer for this worker */
initStringInfo(&wstate->worker_str[n]);
es->str = &wstate->worker_str[n];
/*
* Push suitable initial formatting state for this worker's field
* group. We allow one extra logical nesting level, since this group
* will eventually be wrapped in an outer "Workers" group.
*/
ExplainOpenSetAsideGroup("Worker", NULL, true, 2, es);
/*
* In non-TEXT formats we always emit a "Worker Number" field, even if
* there's no other data for this worker.
*/
if (es->format != EXPLAIN_FORMAT_TEXT)
ExplainPropertyInteger("Worker Number", NULL, n, es);
wstate->worker_inited[n] = true;
}
else
{
/* Resuming output for a worker we've already emitted some data for */
es->str = &wstate->worker_str[n];
/* Restore formatting state saved by last ExplainCloseWorker() */
ExplainRestoreGroup(es, 2, &wstate->worker_state_save[n]);
}
/*
* In TEXT format, prefix the first output line for this worker with
* "Worker N:". Then, any additional lines should be indented one more
* stop than the "Worker N" line is.
*/
if (es->format == EXPLAIN_FORMAT_TEXT)
{
if (es->str->len == 0)
{
ExplainIndentText(es);
appendStringInfo(es->str, "Worker %d: ", n);
}
es->indent++;
}
}
/*
* End output for worker N --- must pair with previous ExplainOpenWorker call
*/
static void
ExplainCloseWorker(int n, ExplainState *es)
{
ExplainWorkersState *wstate = es->workers_state;
Assert(wstate);
Assert(n >= 0 && n < wstate->num_workers);
Assert(wstate->worker_inited[n]);
/*
* Save formatting state in case we do another ExplainOpenWorker(), then
* pop the formatting stack.
*/
ExplainSaveGroup(es, 2, &wstate->worker_state_save[n]);
/*
* In TEXT format, if we didn't actually produce any output line(s) then
* truncate off the partial line emitted by ExplainOpenWorker. (This is
* to avoid bogus output if, say, show_buffer_usage chooses not to print
* anything for the worker.) Also fix up the indent level.
*/
if (es->format == EXPLAIN_FORMAT_TEXT)
{
while (es->str->len > 0 && es->str->data[es->str->len - 1] != '\n')
es->str->data[--(es->str->len)] = '\0';
es->indent--;
}
/* Restore prior output buffer pointer */
es->str = wstate->prev_str;
}
/*
* Print per-worker info for current node, then free the ExplainWorkersState.
*/
static void
ExplainFlushWorkersState(ExplainState *es)
{
ExplainWorkersState *wstate = es->workers_state;
ExplainOpenGroup("Workers", "Workers", false, es);
for (int i = 0; i < wstate->num_workers; i++)
{
if (wstate->worker_inited[i])
{
/* This must match previous ExplainOpenSetAsideGroup call */
ExplainOpenGroup("Worker", NULL, true, es);
appendStringInfoString(es->str, wstate->worker_str[i].data);
ExplainCloseGroup("Worker", NULL, true, es);
pfree(wstate->worker_str[i].data);
}
}
ExplainCloseGroup("Workers", "Workers", false, es);
pfree(wstate->worker_inited);
pfree(wstate->worker_str);
pfree(wstate->worker_state_save);
pfree(wstate);
}
/*
* Explain a property, such as sort keys or targets, that takes the form of
* a list of unlabeled items. "data" is a list of C strings.
*/
void
ExplainPropertyList(const char *qlabel, List *data, ExplainState *es)
{
ListCell *lc;
bool first = true;
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
ExplainIndentText(es);
appendStringInfo(es->str, "%s: ", qlabel);
foreach(lc, data)
{
if (!first)
appendStringInfoString(es->str, ", ");
appendStringInfoString(es->str, (const char *) lfirst(lc));
first = false;
}
appendStringInfoChar(es->str, '\n');
break;
case EXPLAIN_FORMAT_XML:
ExplainXMLTag(qlabel, X_OPENING, es);
foreach(lc, data)
{
char *str;
appendStringInfoSpaces(es->str, es->indent * 2 + 2);
appendStringInfoString(es->str, "<Item>");
str = escape_xml((const char *) lfirst(lc));
appendStringInfoString(es->str, str);
pfree(str);
appendStringInfoString(es->str, "</Item>\n");
}
ExplainXMLTag(qlabel, X_CLOSING, es);
break;
case EXPLAIN_FORMAT_JSON:
ExplainJSONLineEnding(es);
appendStringInfoSpaces(es->str, es->indent * 2);
escape_json(es->str, qlabel);
appendStringInfoString(es->str, ": [");
foreach(lc, data)
{
if (!first)
appendStringInfoString(es->str, ", ");
escape_json(es->str, (const char *) lfirst(lc));
first = false;
}
appendStringInfoChar(es->str, ']');
break;
case EXPLAIN_FORMAT_YAML:
ExplainYAMLLineStarting(es);
appendStringInfo(es->str, "%s: ", qlabel);
foreach(lc, data)
{
appendStringInfoChar(es->str, '\n');
appendStringInfoSpaces(es->str, es->indent * 2 + 2);
appendStringInfoString(es->str, "- ");
escape_yaml(es->str, (const char *) lfirst(lc));
}
break;
}
}
/*
* Explain a property that takes the form of a list of unlabeled items within
* another list. "data" is a list of C strings.
*/
void
ExplainPropertyListNested(const char *qlabel, List *data, ExplainState *es)
{
ListCell *lc;
bool first = true;
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
case EXPLAIN_FORMAT_XML:
ExplainPropertyList(qlabel, data, es);
return;
case EXPLAIN_FORMAT_JSON:
ExplainJSONLineEnding(es);
appendStringInfoSpaces(es->str, es->indent * 2);
appendStringInfoChar(es->str, '[');
foreach(lc, data)
{
if (!first)
appendStringInfoString(es->str, ", ");
escape_json(es->str, (const char *) lfirst(lc));
first = false;
}
appendStringInfoChar(es->str, ']');
break;
case EXPLAIN_FORMAT_YAML:
ExplainYAMLLineStarting(es);
appendStringInfoString(es->str, "- [");
foreach(lc, data)
{
if (!first)
appendStringInfoString(es->str, ", ");
escape_yaml(es->str, (const char *) lfirst(lc));
first = false;
}
appendStringInfoChar(es->str, ']');
break;
}
}
/*
* Explain a simple property.
*
* If "numeric" is true, the value is a number (or other value that
* doesn't need quoting in JSON).
*
* If unit is non-NULL the text format will display it after the value.
*
* This usually should not be invoked directly, but via one of the datatype
* specific routines ExplainPropertyText, ExplainPropertyInteger, etc.
*/
static void
ExplainProperty(const char *qlabel, const char *unit, const char *value,
bool numeric, ExplainState *es)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
ExplainIndentText(es);
if (unit)
appendStringInfo(es->str, "%s: %s %s\n", qlabel, value, unit);
else
appendStringInfo(es->str, "%s: %s\n", qlabel, value);
break;
case EXPLAIN_FORMAT_XML:
{
char *str;
appendStringInfoSpaces(es->str, es->indent * 2);
ExplainXMLTag(qlabel, X_OPENING | X_NOWHITESPACE, es);
str = escape_xml(value);
appendStringInfoString(es->str, str);
pfree(str);
ExplainXMLTag(qlabel, X_CLOSING | X_NOWHITESPACE, es);
appendStringInfoChar(es->str, '\n');
}
break;
case EXPLAIN_FORMAT_JSON:
ExplainJSONLineEnding(es);
appendStringInfoSpaces(es->str, es->indent * 2);
escape_json(es->str, qlabel);
appendStringInfoString(es->str, ": ");
if (numeric)
appendStringInfoString(es->str, value);
else
escape_json(es->str, value);
break;
case EXPLAIN_FORMAT_YAML:
ExplainYAMLLineStarting(es);
appendStringInfo(es->str, "%s: ", qlabel);
if (numeric)
appendStringInfoString(es->str, value);
else
escape_yaml(es->str, value);
break;
}
}
/*
* Explain a string-valued property.
*/
void
ExplainPropertyText(const char *qlabel, const char *value, ExplainState *es)
{
ExplainProperty(qlabel, NULL, value, false, es);
}
/*
* Explain an integer-valued property.
*/
void
ExplainPropertyInteger(const char *qlabel, const char *unit, int64 value,
ExplainState *es)
{
char buf[32];
snprintf(buf, sizeof(buf), INT64_FORMAT, value);
ExplainProperty(qlabel, unit, buf, true, es);
}
/*
* Explain an unsigned integer-valued property.
*/
void
ExplainPropertyUInteger(const char *qlabel, const char *unit, uint64 value,
ExplainState *es)
{
char buf[32];
snprintf(buf, sizeof(buf), UINT64_FORMAT, value);
ExplainProperty(qlabel, unit, buf, true, es);
}
/*
* Explain a float-valued property, using the specified number of
* fractional digits.
*/
void
ExplainPropertyFloat(const char *qlabel, const char *unit, double value,
int ndigits, ExplainState *es)
{
char *buf;
buf = psprintf("%.*f", ndigits, value);
ExplainProperty(qlabel, unit, buf, true, es);
pfree(buf);
}
/*
* Explain a bool-valued property.
*/
void
ExplainPropertyBool(const char *qlabel, bool value, ExplainState *es)
{
ExplainProperty(qlabel, NULL, value ? "true" : "false", true, es);
}
/*
* Open a group of related objects.
*
* objtype is the type of the group object, labelname is its label within
* a containing object (if any).
*
* If labeled is true, the group members will be labeled properties,
* while if it's false, they'll be unlabeled objects.
*/
void
ExplainOpenGroup(const char *objtype, const char *labelname,
bool labeled, ExplainState *es)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
/* nothing to do */
break;
case EXPLAIN_FORMAT_XML:
ExplainXMLTag(objtype, X_OPENING, es);
es->indent++;
break;
case EXPLAIN_FORMAT_JSON:
ExplainJSONLineEnding(es);
appendStringInfoSpaces(es->str, 2 * es->indent);
if (labelname)
{
escape_json(es->str, labelname);
appendStringInfoString(es->str, ": ");
}
appendStringInfoChar(es->str, labeled ? '{' : '[');
/*
* In JSON format, the grouping_stack is an integer list. 0 means
* we've emitted nothing at this grouping level, 1 means we've
* emitted something (and so the next item needs a comma). See
* ExplainJSONLineEnding().
*/
es->grouping_stack = lcons_int(0, es->grouping_stack);
es->indent++;
break;
case EXPLAIN_FORMAT_YAML:
/*
* In YAML format, the grouping stack is an integer list. 0 means
* we've emitted nothing at this grouping level AND this grouping
* level is unlabeled and must be marked with "- ". See
* ExplainYAMLLineStarting().
*/
ExplainYAMLLineStarting(es);
if (labelname)
{
appendStringInfo(es->str, "%s: ", labelname);
es->grouping_stack = lcons_int(1, es->grouping_stack);
}
else
{
appendStringInfoString(es->str, "- ");
es->grouping_stack = lcons_int(0, es->grouping_stack);
}
es->indent++;
break;
}
}
/*
* Close a group of related objects.
* Parameters must match the corresponding ExplainOpenGroup call.
*/
void
ExplainCloseGroup(const char *objtype, const char *labelname,
bool labeled, ExplainState *es)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
/* nothing to do */
break;
case EXPLAIN_FORMAT_XML:
es->indent--;
ExplainXMLTag(objtype, X_CLOSING, es);
break;
case EXPLAIN_FORMAT_JSON:
es->indent--;
appendStringInfoChar(es->str, '\n');
appendStringInfoSpaces(es->str, 2 * es->indent);
appendStringInfoChar(es->str, labeled ? '}' : ']');
es->grouping_stack = list_delete_first(es->grouping_stack);
break;
case EXPLAIN_FORMAT_YAML:
es->indent--;
es->grouping_stack = list_delete_first(es->grouping_stack);
break;
}
}
/*
* Open a group of related objects, without emitting actual data.
*
* Prepare the formatting state as though we were beginning a group with
* the identified properties, but don't actually emit anything. Output
* subsequent to this call can be redirected into a separate output buffer,
* and then eventually appended to the main output buffer after doing a
* regular ExplainOpenGroup call (with the same parameters).
*
* The extra "depth" parameter is the new group's depth compared to current.
* It could be more than one, in case the eventual output will be enclosed
* in additional nesting group levels. We assume we don't need to track
* formatting state for those levels while preparing this group's output.
*
* There is no ExplainCloseSetAsideGroup --- in current usage, we always
* pop this state with ExplainSaveGroup.
*/
static void
ExplainOpenSetAsideGroup(const char *objtype, const char *labelname,
bool labeled, int depth, ExplainState *es)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
/* nothing to do */
break;
case EXPLAIN_FORMAT_XML:
es->indent += depth;
break;
case EXPLAIN_FORMAT_JSON:
es->grouping_stack = lcons_int(0, es->grouping_stack);
es->indent += depth;
break;
case EXPLAIN_FORMAT_YAML:
if (labelname)
es->grouping_stack = lcons_int(1, es->grouping_stack);
else
es->grouping_stack = lcons_int(0, es->grouping_stack);
es->indent += depth;
break;
}
}
/*
* Pop one level of grouping state, allowing for a re-push later.
*
* This is typically used after ExplainOpenSetAsideGroup; pass the
* same "depth" used for that.
*
* This should not emit any output. If state needs to be saved,
* save it at *state_save. Currently, an integer save area is sufficient
* for all formats, but we might need to revisit that someday.
*/
static void
ExplainSaveGroup(ExplainState *es, int depth, int *state_save)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
/* nothing to do */
break;
case EXPLAIN_FORMAT_XML:
es->indent -= depth;
break;
case EXPLAIN_FORMAT_JSON:
es->indent -= depth;
*state_save = linitial_int(es->grouping_stack);
es->grouping_stack = list_delete_first(es->grouping_stack);
break;
case EXPLAIN_FORMAT_YAML:
es->indent -= depth;
*state_save = linitial_int(es->grouping_stack);
es->grouping_stack = list_delete_first(es->grouping_stack);
break;
}
}
/*
* Re-push one level of grouping state, undoing the effects of ExplainSaveGroup.
*/
static void
ExplainRestoreGroup(ExplainState *es, int depth, int *state_save)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
/* nothing to do */
break;
case EXPLAIN_FORMAT_XML:
es->indent += depth;
break;
case EXPLAIN_FORMAT_JSON:
es->grouping_stack = lcons_int(*state_save, es->grouping_stack);
es->indent += depth;
break;
case EXPLAIN_FORMAT_YAML:
es->grouping_stack = lcons_int(*state_save, es->grouping_stack);
es->indent += depth;
break;
}
}
/*
* Emit a "dummy" group that never has any members.
*
* objtype is the type of the group object, labelname is its label within
* a containing object (if any).
*/
static void
ExplainDummyGroup(const char *objtype, const char *labelname, ExplainState *es)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
/* nothing to do */
break;
case EXPLAIN_FORMAT_XML:
ExplainXMLTag(objtype, X_CLOSE_IMMEDIATE, es);
break;
case EXPLAIN_FORMAT_JSON:
ExplainJSONLineEnding(es);
appendStringInfoSpaces(es->str, 2 * es->indent);
if (labelname)
{
escape_json(es->str, labelname);
appendStringInfoString(es->str, ": ");
}
escape_json(es->str, objtype);
break;
case EXPLAIN_FORMAT_YAML:
ExplainYAMLLineStarting(es);
if (labelname)
{
escape_yaml(es->str, labelname);
appendStringInfoString(es->str, ": ");
}
else
{
appendStringInfoString(es->str, "- ");
}
escape_yaml(es->str, objtype);
break;
}
}
/*
* Emit the start-of-output boilerplate.
*
* This is just enough different from processing a subgroup that we need
* a separate pair of subroutines.
*/
void
ExplainBeginOutput(ExplainState *es)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
/* nothing to do */
break;
case EXPLAIN_FORMAT_XML:
appendStringInfoString(es->str,
"<explain xmlns=\"http://www.postgresql.org/2009/explain\">\n");
es->indent++;
break;
case EXPLAIN_FORMAT_JSON:
/* top-level structure is an array of plans */
appendStringInfoChar(es->str, '[');
es->grouping_stack = lcons_int(0, es->grouping_stack);
es->indent++;
break;
case EXPLAIN_FORMAT_YAML:
es->grouping_stack = lcons_int(0, es->grouping_stack);
break;
}
}
/*
* Emit the end-of-output boilerplate.
*/
void
ExplainEndOutput(ExplainState *es)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
/* nothing to do */
break;
case EXPLAIN_FORMAT_XML:
es->indent--;
appendStringInfoString(es->str, "</explain>");
break;
case EXPLAIN_FORMAT_JSON:
es->indent--;
appendStringInfoString(es->str, "\n]");
es->grouping_stack = list_delete_first(es->grouping_stack);
break;
case EXPLAIN_FORMAT_YAML:
es->grouping_stack = list_delete_first(es->grouping_stack);
break;
}
}
/*
* Put an appropriate separator between multiple plans
*/
void
ExplainSeparatePlans(ExplainState *es)
{
switch (es->format)
{
case EXPLAIN_FORMAT_TEXT:
/* add a blank line */
appendStringInfoChar(es->str, '\n');
break;
case EXPLAIN_FORMAT_XML:
case EXPLAIN_FORMAT_JSON:
case EXPLAIN_FORMAT_YAML:
/* nothing to do */
break;
}
}
/*
* Emit opening or closing XML tag.
*
* "flags" must contain X_OPENING, X_CLOSING, or X_CLOSE_IMMEDIATE.
* Optionally, OR in X_NOWHITESPACE to suppress the whitespace we'd normally
* add.
*
* XML restricts tag names more than our other output formats, eg they can't
* contain white space or slashes. Replace invalid characters with dashes,
* so that for example "I/O Read Time" becomes "I-O-Read-Time".
*/
static void
ExplainXMLTag(const char *tagname, int flags, ExplainState *es)
{
const char *s;
const char *valid = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_.";
if ((flags & X_NOWHITESPACE) == 0)
appendStringInfoSpaces(es->str, 2 * es->indent);
appendStringInfoCharMacro(es->str, '<');
if ((flags & X_CLOSING) != 0)
appendStringInfoCharMacro(es->str, '/');
for (s = tagname; *s; s++)
appendStringInfoChar(es->str, strchr(valid, *s) ? *s : '-');
if ((flags & X_CLOSE_IMMEDIATE) != 0)
appendStringInfoString(es->str, " /");
appendStringInfoCharMacro(es->str, '>');
if ((flags & X_NOWHITESPACE) == 0)
appendStringInfoCharMacro(es->str, '\n');
}
/*
* Indent a text-format line.
*
* We indent by two spaces per indentation level. However, when emitting
* data for a parallel worker there might already be data on the current line
* (cf. ExplainOpenWorker); in that case, don't indent any more.
*/
static void
ExplainIndentText(ExplainState *es)
{
Assert(es->format == EXPLAIN_FORMAT_TEXT);
if (es->str->len == 0 || es->str->data[es->str->len - 1] == '\n')
appendStringInfoSpaces(es->str, es->indent * 2);
}
/*
* Emit a JSON line ending.
*
* JSON requires a comma after each property but the last. To facilitate this,
* in JSON format, the text emitted for each property begins just prior to the
* preceding line-break (and comma, if applicable).
*/
static void
ExplainJSONLineEnding(ExplainState *es)
{
Assert(es->format == EXPLAIN_FORMAT_JSON);
if (linitial_int(es->grouping_stack) != 0)
appendStringInfoChar(es->str, ',');
else
linitial_int(es->grouping_stack) = 1;
appendStringInfoChar(es->str, '\n');
}
/*
* Indent a YAML line.
*
* YAML lines are ordinarily indented by two spaces per indentation level.
* The text emitted for each property begins just prior to the preceding
* line-break, except for the first property in an unlabeled group, for which
* it begins immediately after the "- " that introduces the group. The first
* property of the group appears on the same line as the opening "- ".
*/
static void
ExplainYAMLLineStarting(ExplainState *es)
{
Assert(es->format == EXPLAIN_FORMAT_YAML);
if (linitial_int(es->grouping_stack) == 0)
{
linitial_int(es->grouping_stack) = 1;
}
else
{
appendStringInfoChar(es->str, '\n');
appendStringInfoSpaces(es->str, es->indent * 2);
}
}
/*
* YAML is a superset of JSON; unfortunately, the YAML quoting rules are
* ridiculously complicated -- as documented in sections 5.3 and 7.3.3 of
* http://yaml.org/spec/1.2/spec.html -- so we chose to just quote everything.
* Empty strings, strings with leading or trailing whitespace, and strings
* containing a variety of special characters must certainly be quoted or the
* output is invalid; and other seemingly harmless strings like "0xa" or
* "true" must be quoted, lest they be interpreted as a hexadecimal or Boolean
* constant rather than a string.
*/
static void
escape_yaml(StringInfo buf, const char *str)
{
escape_json(buf, str);
}
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