/*------------------------------------------------------------------------- * * nodeAppend.c * routines to handle append nodes. * * Portions Copyright (c) 1996-2001, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/executor/nodeAppend.c,v 1.39 2001/01/24 19:42:54 momjian Exp $ * *------------------------------------------------------------------------- */ /* INTERFACE ROUTINES * ExecInitAppend - initialize the append node * ExecProcAppend - retrieve the next tuple from the node * ExecEndAppend - shut down the append node * ExecReScanAppend - rescan the append node * * NOTES * Each append node contains a list of one or more subplans which * must be iteratively processed (forwards or backwards). * Tuples are retrieved by executing the 'whichplan'th subplan * until the subplan stops returning tuples, at which point that * plan is shut down and the next started up. * * Append nodes don't make use of their left and right * subtrees, rather they maintain a list of subplans so * a typical append node looks like this in the plan tree: * * ... * / * Append -------+------+------+--- nil * / \ | | | * nil nil ... ... ... * subplans * * Append nodes are currently used for unions, and to support * inheritance queries, where several relations need to be scanned. * For example, in our standard person/student/employee/student-emp * example, where student and employee inherit from person * and student-emp inherits from student and employee, the * query: * * retrieve (e.name) from e in person* * * generates the plan: * * | * Append -------+-------+--------+--------+ * / \ | | | | * nil nil Scan Scan Scan Scan * | | | | * person employee student student-emp */ #include "postgres.h" #include "access/heapam.h" #include "executor/execdebug.h" #include "executor/nodeAppend.h" #include "parser/parsetree.h" static bool exec_append_initialize_next(Append *node); /* ---------------------------------------------------------------- * exec_append_initialize_next * * Sets up the append node state (i.e. the append state node) * for the "next" scan. * * Returns t iff there is a "next" scan to process. * ---------------------------------------------------------------- */ static bool exec_append_initialize_next(Append *node) { EState *estate; AppendState *appendstate; int whichplan; int nplans; /* ---------------- * get information from the append node * ---------------- */ estate = node->plan.state; appendstate = node->appendstate; whichplan = appendstate->as_whichplan; nplans = appendstate->as_nplans; if (whichplan < 0) { /* ---------------- * if scanning in reverse, we start at * the last scan in the list and then * proceed back to the first.. in any case * we inform ExecProcAppend that we are * at the end of the line by returning FALSE * ---------------- */ appendstate->as_whichplan = 0; return FALSE; } else if (whichplan >= nplans) { /* ---------------- * as above, end the scan if we go beyond * the last scan in our list.. * ---------------- */ appendstate->as_whichplan = nplans - 1; return FALSE; } else { /* ---------------- * initialize the scan * * If we are controlling the target relation, select the proper * active ResultRelInfo and junk filter for this target. * ---------------- */ if (node->isTarget) { Assert(whichplan < estate->es_num_result_relations); estate->es_result_relation_info = estate->es_result_relations + whichplan; estate->es_junkFilter = estate->es_result_relation_info->ri_junkFilter; } return TRUE; } } /* ---------------------------------------------------------------- * ExecInitAppend * * Begins all of the subscans of the append node, storing the * scan structures in the 'initialized' vector of the append-state * structure. * * (This is potentially wasteful, since the entire result of the * append node may not be scanned, but this way all of the * structures get allocated in the executor's top level memory * block instead of that of the call to ExecProcAppend.) * * Returns the scan result of the first scan. * ---------------------------------------------------------------- */ bool ExecInitAppend(Append *node, EState *estate, Plan *parent) { AppendState *appendstate; int nplans; List *appendplans; bool *initialized; int i; Plan *initNode; CXT1_printf("ExecInitAppend: context is %d\n", CurrentMemoryContext); /* ---------------- * assign execution state to node and get information * for append state * ---------------- */ node->plan.state = estate; appendplans = node->appendplans; nplans = length(appendplans); initialized = (bool *) palloc(nplans * sizeof(bool)); MemSet(initialized, 0, nplans * sizeof(bool)); /* ---------------- * create new AppendState for our append node * ---------------- */ appendstate = makeNode(AppendState); appendstate->as_whichplan = 0; appendstate->as_nplans = nplans; appendstate->as_initialized = initialized; node->appendstate = appendstate; /* ---------------- * Miscellaneous initialization * * Append plans don't have expression contexts because they * never call ExecQual or ExecProject. * ---------------- */ #define APPEND_NSLOTS 1 /* ---------------- * append nodes still have Result slots, which hold pointers * to tuples, so we have to initialize them. * ---------------- */ ExecInitResultTupleSlot(estate, &appendstate->cstate); /* ---------------- * call ExecInitNode on each of the plans in our list * and save the results into the array "initialized" * ---------------- */ for (i = 0; i < nplans; i++) { appendstate->as_whichplan = i; exec_append_initialize_next(node); initNode = (Plan *) nth(i, appendplans); initialized[i] = ExecInitNode(initNode, estate, (Plan *) node); } /* ---------------- * initialize tuple type * ---------------- */ ExecAssignResultTypeFromTL((Plan *) node, &appendstate->cstate); appendstate->cstate.cs_ProjInfo = NULL; /* ---------------- * return the result from the first subplan's initialization * ---------------- */ appendstate->as_whichplan = 0; exec_append_initialize_next(node); return TRUE; } int ExecCountSlotsAppend(Append *node) { List *plan; int nSlots = 0; foreach(plan, node->appendplans) nSlots += ExecCountSlotsNode((Plan *) lfirst(plan)); return nSlots + APPEND_NSLOTS; } /* ---------------------------------------------------------------- * ExecProcAppend * * Handles the iteration over the multiple scans. * * NOTE: Can't call this ExecAppend, that name is used in execMain. * ---------------------------------------------------------------- */ TupleTableSlot * ExecProcAppend(Append *node) { EState *estate; AppendState *appendstate; int whichplan; List *appendplans; Plan *subnode; TupleTableSlot *result; TupleTableSlot *result_slot; ScanDirection direction; /* ---------------- * get information from the node * ---------------- */ appendstate = node->appendstate; estate = node->plan.state; direction = estate->es_direction; appendplans = node->appendplans; whichplan = appendstate->as_whichplan; result_slot = appendstate->cstate.cs_ResultTupleSlot; /* ---------------- * figure out which subplan we are currently processing * ---------------- */ subnode = (Plan *) nth(whichplan, appendplans); if (subnode == NULL) elog(DEBUG, "ExecProcAppend: subnode is NULL"); /* ---------------- * get a tuple from the subplan * ---------------- */ result = ExecProcNode(subnode, (Plan *) node); if (!TupIsNull(result)) { /* ---------------- * if the subplan gave us something then place a copy of * whatever we get into our result slot and return it. * * Note we rely on the subplan to retain ownership of the * tuple for as long as we need it --- we don't copy it. * ---------------- */ return ExecStoreTuple(result->val, result_slot, InvalidBuffer, false); } else { /* ---------------- * .. go on to the "next" subplan in the appropriate * direction and try processing again (recursively) * ---------------- */ if (ScanDirectionIsForward(direction)) appendstate->as_whichplan++; else appendstate->as_whichplan--; /* ---------------- * return something from next node or an empty slot * if all of our subplans have been exhausted. * ---------------- */ if (exec_append_initialize_next(node)) { ExecSetSlotDescriptorIsNew(result_slot, true); return ExecProcAppend(node); } else return ExecClearTuple(result_slot); } } /* ---------------------------------------------------------------- * ExecEndAppend * * Shuts down the subscans of the append node. * * Returns nothing of interest. * ---------------------------------------------------------------- */ void ExecEndAppend(Append *node) { EState *estate; AppendState *appendstate; int nplans; List *appendplans; bool *initialized; int i; /* ---------------- * get information from the node * ---------------- */ appendstate = node->appendstate; estate = node->plan.state; appendplans = node->appendplans; nplans = appendstate->as_nplans; initialized = appendstate->as_initialized; /* ---------------- * shut down each of the subscans * ---------------- */ for (i = 0; i < nplans; i++) { if (initialized[i]) ExecEndNode((Plan *) nth(i, appendplans), (Plan *) node); } } void ExecReScanAppend(Append *node, ExprContext *exprCtxt, Plan *parent) { AppendState *appendstate = node->appendstate; int nplans = length(node->appendplans); int i; for (i = 0; i < nplans; i++) { Plan *rescanNode; appendstate->as_whichplan = i; rescanNode = (Plan *) nth(i, node->appendplans); if (rescanNode->chgParam == NULL) { exec_append_initialize_next(node); ExecReScan((Plan *) rescanNode, exprCtxt, (Plan *) node); } } appendstate->as_whichplan = 0; exec_append_initialize_next(node); }