/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #include "executorimpl.h" #include "filter.h" #include "function.h" #include "functionMgt.h" #include "tcommon.h" #include "tcompare.h" #include "tdatablock.h" #include "tfill.h" #include "ttime.h" #define IS_FINAL_OP(op) ((op)->isFinal) #define DEAULT_DELETE_MARK (1000LL * 60LL * 60LL * 24LL * 365LL * 10LL); typedef struct SSessionAggOperatorInfo { SOptrBasicInfo binfo; SAggSupporter aggSup; SGroupResInfo groupResInfo; SWindowRowsSup winSup; bool reptScan; // next round scan int64_t gap; // session window gap int32_t tsSlotId; // primary timestamp slot id STimeWindowAggSupp twAggSup; } SSessionAggOperatorInfo; typedef struct SStateWindowOperatorInfo { SOptrBasicInfo binfo; SAggSupporter aggSup; SExprSupp scalarSup; SGroupResInfo groupResInfo; SWindowRowsSup winSup; SColumn stateCol; // start row index bool hasKey; SStateKeys stateKey; int32_t tsSlotId; // primary timestamp column slot id STimeWindowAggSupp twAggSup; } SStateWindowOperatorInfo; typedef enum SResultTsInterpType { RESULT_ROW_START_INTERP = 1, RESULT_ROW_END_INTERP = 2, } SResultTsInterpType; typedef struct SPullWindowInfo { STimeWindow window; uint64_t groupId; STimeWindow calWin; } SPullWindowInfo; typedef struct SOpenWindowInfo { SResultRowPosition pos; uint64_t groupId; } SOpenWindowInfo; static int64_t* extractTsCol(SSDataBlock* pBlock, const SIntervalAggOperatorInfo* pInfo); static SResultRowPosition addToOpenWindowList(SResultRowInfo* pResultRowInfo, const SResultRow* pResult, uint64_t groupId); static void doCloseWindow(SResultRowInfo* pResultRowInfo, const SIntervalAggOperatorInfo* pInfo, SResultRow* pResult); static TSKEY getStartTsKey(STimeWindow* win, const TSKEY* tsCols) { return tsCols == NULL ? win->skey : tsCols[0]; } static int32_t setTimeWindowOutputBuf(SResultRowInfo* pResultRowInfo, STimeWindow* win, bool masterscan, SResultRow** pResult, int64_t tableGroupId, SqlFunctionCtx* pCtx, int32_t numOfOutput, int32_t* rowEntryInfoOffset, SAggSupporter* pAggSup, SExecTaskInfo* pTaskInfo) { SResultRow* pResultRow = doSetResultOutBufByKey(pAggSup->pResultBuf, pResultRowInfo, (char*)&win->skey, TSDB_KEYSIZE, masterscan, tableGroupId, pTaskInfo, true, pAggSup, true); if (pResultRow == NULL) { *pResult = NULL; return TSDB_CODE_SUCCESS; } // set time window for current result pResultRow->win = (*win); *pResult = pResultRow; setResultRowInitCtx(pResultRow, pCtx, numOfOutput, rowEntryInfoOffset); return TSDB_CODE_SUCCESS; } static void updateTimeWindowInfo(SColumnInfoData* pColData, STimeWindow* pWin, bool includeEndpoint) { int64_t* ts = (int64_t*)pColData->pData; int32_t delta = includeEndpoint ? 1 : 0; int64_t duration = pWin->ekey - pWin->skey + delta; ts[2] = duration; // set the duration ts[3] = pWin->skey; // window start key ts[4] = pWin->ekey + delta; // window end key } static void doKeepTuple(SWindowRowsSup* pRowSup, int64_t ts, uint64_t groupId) { pRowSup->win.ekey = ts; pRowSup->prevTs = ts; pRowSup->numOfRows += 1; pRowSup->groupId = groupId; } static void doKeepNewWindowStartInfo(SWindowRowsSup* pRowSup, const int64_t* tsList, int32_t rowIndex, uint64_t groupId) { pRowSup->startRowIndex = rowIndex; pRowSup->numOfRows = 0; pRowSup->win.skey = tsList[rowIndex]; pRowSup->groupId = groupId; } FORCE_INLINE int32_t getForwardStepsInBlock(int32_t numOfRows, __block_search_fn_t searchFn, TSKEY ekey, int32_t pos, int32_t order, int64_t* pData) { int32_t forwardRows = 0; if (order == TSDB_ORDER_ASC) { int32_t end = searchFn((char*)&pData[pos], numOfRows - pos, ekey, order); if (end >= 0) { forwardRows = end; while (pData[end + pos] == ekey) { forwardRows += 1; ++pos; } } } else { int32_t end = searchFn((char*)&pData[pos], numOfRows - pos, ekey, order); if (end >= 0) { forwardRows = end; while (pData[end + pos] == ekey) { forwardRows += 1; ++pos; } } // int32_t end = searchFn((char*)pData, pos + 1, ekey, order); // if (end >= 0) { // forwardRows = pos - end; // // if (pData[end] == ekey) { // forwardRows += 1; // } // } } assert(forwardRows >= 0); return forwardRows; } int32_t binarySearchForKey(char* pValue, int num, TSKEY key, int order) { int32_t midPos = -1; int32_t numOfRows; if (num <= 0) { return -1; } assert(order == TSDB_ORDER_ASC || order == TSDB_ORDER_DESC); TSKEY* keyList = (TSKEY*)pValue; int32_t firstPos = 0; int32_t lastPos = num - 1; if (order == TSDB_ORDER_DESC) { // find the first position which is smaller than the key while (1) { if (key >= keyList[firstPos]) return firstPos; if (key == keyList[lastPos]) return lastPos; if (key < keyList[lastPos]) { lastPos += 1; if (lastPos >= num) { return -1; } else { return lastPos; } } numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1) + firstPos; if (key < keyList[midPos]) { firstPos = midPos + 1; } else if (key > keyList[midPos]) { lastPos = midPos - 1; } else { break; } } } else { // find the first position which is bigger than the key while (1) { if (key <= keyList[firstPos]) return firstPos; if (key == keyList[lastPos]) return lastPos; if (key > keyList[lastPos]) { lastPos = lastPos + 1; if (lastPos >= num) return -1; else return lastPos; } numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1u) + firstPos; if (key < keyList[midPos]) { lastPos = midPos - 1; } else if (key > keyList[midPos]) { firstPos = midPos + 1; } else { break; } } } return midPos; } int32_t getNumOfRowsInTimeWindow(SDataBlockInfo* pDataBlockInfo, TSKEY* pPrimaryColumn, int32_t startPos, TSKEY ekey, __block_search_fn_t searchFn, STableQueryInfo* item, int32_t order) { assert(startPos >= 0 && startPos < pDataBlockInfo->rows); int32_t num = -1; int32_t step = GET_FORWARD_DIRECTION_FACTOR(order); if (order == TSDB_ORDER_ASC) { if (ekey < pDataBlockInfo->window.ekey && pPrimaryColumn) { num = getForwardStepsInBlock(pDataBlockInfo->rows, searchFn, ekey, startPos, order, pPrimaryColumn); if (item != NULL) { item->lastKey = pPrimaryColumn[startPos + (num - 1)] + step; } } else { num = pDataBlockInfo->rows - startPos; if (item != NULL) { item->lastKey = pDataBlockInfo->window.ekey + step; } } } else { // desc if (ekey > pDataBlockInfo->window.skey && pPrimaryColumn) { num = getForwardStepsInBlock(pDataBlockInfo->rows, searchFn, ekey, startPos, order, pPrimaryColumn); if (item != NULL) { item->lastKey = pPrimaryColumn[startPos + (num - 1)] + step; } } else { num = pDataBlockInfo->rows - startPos; if (item != NULL) { item->lastKey = pDataBlockInfo->window.ekey + step; } } } assert(num >= 0); return num; } static void getNextTimeWindow(SInterval* pInterval, int32_t precision, int32_t order, STimeWindow* tw) { int32_t factor = GET_FORWARD_DIRECTION_FACTOR(order); if (pInterval->intervalUnit != 'n' && pInterval->intervalUnit != 'y') { tw->skey += pInterval->sliding * factor; tw->ekey = tw->skey + pInterval->interval - 1; return; } int64_t key = tw->skey, interval = pInterval->interval; // convert key to second key = convertTimePrecision(key, precision, TSDB_TIME_PRECISION_MILLI) / 1000; if (pInterval->intervalUnit == 'y') { interval *= 12; } struct tm tm; time_t t = (time_t)key; taosLocalTime(&t, &tm); int mon = (int)(tm.tm_year * 12 + tm.tm_mon + interval * factor); tm.tm_year = mon / 12; tm.tm_mon = mon % 12; tw->skey = convertTimePrecision((int64_t)taosMktime(&tm) * 1000LL, TSDB_TIME_PRECISION_MILLI, precision); mon = (int)(mon + interval); tm.tm_year = mon / 12; tm.tm_mon = mon % 12; tw->ekey = convertTimePrecision((int64_t)taosMktime(&tm) * 1000LL, TSDB_TIME_PRECISION_MILLI, precision); tw->ekey -= 1; } void getNextIntervalWindow(SInterval* pInterval, STimeWindow* tw, int32_t order) { getNextTimeWindow(pInterval, pInterval->precision, order, tw); } void doTimeWindowInterpolation(SArray* pPrevValues, SArray* pDataBlock, TSKEY prevTs, int32_t prevRowIndex, TSKEY curTs, int32_t curRowIndex, TSKEY windowKey, int32_t type, SExprSupp* pSup) { SqlFunctionCtx* pCtx = pSup->pCtx; int32_t index = 1; for (int32_t k = 0; k < pSup->numOfExprs; ++k) { if (!fmIsIntervalInterpoFunc(pCtx[k].functionId)) { pCtx[k].start.key = INT64_MIN; continue; } SFunctParam* pParam = &pCtx[k].param[0]; SColumnInfoData* pColInfo = taosArrayGet(pDataBlock, pParam->pCol->slotId); ASSERT(pColInfo->info.type == pParam->pCol->type && curTs != windowKey); double v1 = 0, v2 = 0, v = 0; if (prevRowIndex == -1) { SGroupKeys* p = taosArrayGet(pPrevValues, index); GET_TYPED_DATA(v1, double, pColInfo->info.type, p->pData); } else { GET_TYPED_DATA(v1, double, pColInfo->info.type, colDataGetData(pColInfo, prevRowIndex)); } GET_TYPED_DATA(v2, double, pColInfo->info.type, colDataGetData(pColInfo, curRowIndex)); #if 0 if (functionId == FUNCTION_INTERP) { if (type == RESULT_ROW_START_INTERP) { pCtx[k].start.key = prevTs; pCtx[k].start.val = v1; pCtx[k].end.key = curTs; pCtx[k].end.val = v2; if (pColInfo->info.type == TSDB_DATA_TYPE_BINARY || pColInfo->info.type == TSDB_DATA_TYPE_NCHAR) { if (prevRowIndex == -1) { // pCtx[k].start.ptr = (char*)pRuntimeEnv->prevRow[index]; } else { pCtx[k].start.ptr = (char*)pColInfo->pData + prevRowIndex * pColInfo->info.bytes; } pCtx[k].end.ptr = (char*)pColInfo->pData + curRowIndex * pColInfo->info.bytes; } } } else if (functionId == FUNCTION_TWA) { #endif SPoint point1 = (SPoint){.key = prevTs, .val = &v1}; SPoint point2 = (SPoint){.key = curTs, .val = &v2}; SPoint point = (SPoint){.key = windowKey, .val = &v}; taosGetLinearInterpolationVal(&point, TSDB_DATA_TYPE_DOUBLE, &point1, &point2, TSDB_DATA_TYPE_DOUBLE); if (type == RESULT_ROW_START_INTERP) { pCtx[k].start.key = point.key; pCtx[k].start.val = v; } else { pCtx[k].end.key = point.key; pCtx[k].end.val = v; } index += 1; } #if 0 } #endif } static void setNotInterpoWindowKey(SqlFunctionCtx* pCtx, int32_t numOfOutput, int32_t type) { if (type == RESULT_ROW_START_INTERP) { for (int32_t k = 0; k < numOfOutput; ++k) { pCtx[k].start.key = INT64_MIN; } } else { for (int32_t k = 0; k < numOfOutput; ++k) { pCtx[k].end.key = INT64_MIN; } } } static bool setTimeWindowInterpolationStartTs(SIntervalAggOperatorInfo* pInfo, int32_t pos, SSDataBlock* pBlock, const TSKEY* tsCols, STimeWindow* win, SExprSupp* pSup) { bool ascQuery = (pInfo->inputOrder == TSDB_ORDER_ASC); TSKEY curTs = tsCols[pos]; SGroupKeys* pTsKey = taosArrayGet(pInfo->pPrevValues, 0); TSKEY lastTs = *(int64_t*)pTsKey->pData; // lastTs == INT64_MIN and pos == 0 means this is the first time window, interpolation is not needed. // start exactly from this point, no need to do interpolation TSKEY key = ascQuery ? win->skey : win->ekey; if (key == curTs) { setNotInterpoWindowKey(pSup->pCtx, pSup->numOfExprs, RESULT_ROW_START_INTERP); return true; } // it is the first time window, no need to do interpolation if (pTsKey->isNull && pos == 0) { setNotInterpoWindowKey(pSup->pCtx, pSup->numOfExprs, RESULT_ROW_START_INTERP); } else { TSKEY prevTs = ((pos == 0) ? lastTs : tsCols[pos - 1]); doTimeWindowInterpolation(pInfo->pPrevValues, pBlock->pDataBlock, prevTs, pos - 1, curTs, pos, key, RESULT_ROW_START_INTERP, pSup); } return true; } static bool setTimeWindowInterpolationEndTs(SIntervalAggOperatorInfo* pInfo, SExprSupp* pSup, int32_t endRowIndex, SArray* pDataBlock, const TSKEY* tsCols, TSKEY blockEkey, STimeWindow* win) { int32_t order = pInfo->inputOrder; TSKEY actualEndKey = tsCols[endRowIndex]; TSKEY key = (order == TSDB_ORDER_ASC) ? win->ekey : win->skey; // not ended in current data block, do not invoke interpolation if ((key > blockEkey && (order == TSDB_ORDER_ASC)) || (key < blockEkey && (order == TSDB_ORDER_DESC))) { setNotInterpoWindowKey(pSup->pCtx, pSup->numOfExprs, RESULT_ROW_END_INTERP); return false; } // there is actual end point of current time window, no interpolation needs if (key == actualEndKey) { setNotInterpoWindowKey(pSup->pCtx, pSup->numOfExprs, RESULT_ROW_END_INTERP); return true; } int32_t nextRowIndex = endRowIndex + 1; assert(nextRowIndex >= 0); TSKEY nextKey = tsCols[nextRowIndex]; doTimeWindowInterpolation(pInfo->pPrevValues, pDataBlock, actualEndKey, endRowIndex, nextKey, nextRowIndex, key, RESULT_ROW_END_INTERP, pSup); return true; } bool inCalSlidingWindow(SInterval* pInterval, STimeWindow* pWin, TSKEY calStart, TSKEY calEnd) { if (pInterval->interval != pInterval->sliding && (pWin->ekey < calStart || pWin->skey > calEnd)) { return false; } return true; } bool inSlidingWindow(SInterval* pInterval, STimeWindow* pWin, SDataBlockInfo* pBlockInfo) { return inCalSlidingWindow(pInterval, pWin, pBlockInfo->calWin.skey, pBlockInfo->calWin.ekey); } static int32_t getNextQualifiedWindow(SInterval* pInterval, STimeWindow* pNext, SDataBlockInfo* pDataBlockInfo, TSKEY* primaryKeys, int32_t prevPosition, int32_t order) { bool ascQuery = (order == TSDB_ORDER_ASC); int32_t precision = pInterval->precision; getNextTimeWindow(pInterval, precision, order, pNext); // next time window is not in current block if ((pNext->skey > pDataBlockInfo->window.ekey && order == TSDB_ORDER_ASC) || (pNext->ekey < pDataBlockInfo->window.skey && order == TSDB_ORDER_DESC)) { return -1; } if (!inSlidingWindow(pInterval, pNext, pDataBlockInfo) && order == TSDB_ORDER_ASC) { return -1; } TSKEY skey = ascQuery ? pNext->skey : pNext->ekey; int32_t startPos = 0; // tumbling time window query, a special case of sliding time window query if (pInterval->sliding == pInterval->interval && prevPosition != -1) { startPos = prevPosition + 1; } else { if ((skey <= pDataBlockInfo->window.skey && ascQuery) || (skey >= pDataBlockInfo->window.ekey && !ascQuery)) { startPos = 0; } else { startPos = binarySearchForKey((char*)primaryKeys, pDataBlockInfo->rows, skey, order); } } /* interp query with fill should not skip time window */ // if (pQueryAttr->pointInterpQuery && pQueryAttr->fillType != TSDB_FILL_NONE) { // return startPos; // } /* * This time window does not cover any data, try next time window, * this case may happen when the time window is too small */ if (primaryKeys == NULL) { if (ascQuery) { assert(pDataBlockInfo->window.skey <= pNext->ekey); } else { assert(pDataBlockInfo->window.ekey >= pNext->skey); } } else { if (ascQuery && primaryKeys[startPos] > pNext->ekey) { TSKEY next = primaryKeys[startPos]; if (pInterval->intervalUnit == 'n' || pInterval->intervalUnit == 'y') { pNext->skey = taosTimeTruncate(next, pInterval, precision); pNext->ekey = taosTimeAdd(pNext->skey, pInterval->interval, pInterval->intervalUnit, precision) - 1; } else { pNext->ekey += ((next - pNext->ekey + pInterval->sliding - 1) / pInterval->sliding) * pInterval->sliding; pNext->skey = pNext->ekey - pInterval->interval + 1; } } else if ((!ascQuery) && primaryKeys[startPos] < pNext->skey) { TSKEY next = primaryKeys[startPos]; if (pInterval->intervalUnit == 'n' || pInterval->intervalUnit == 'y') { pNext->skey = taosTimeTruncate(next, pInterval, precision); pNext->ekey = taosTimeAdd(pNext->skey, pInterval->interval, pInterval->intervalUnit, precision) - 1; } else { pNext->skey -= ((pNext->skey - next + pInterval->sliding - 1) / pInterval->sliding) * pInterval->sliding; pNext->ekey = pNext->skey + pInterval->interval - 1; } } } return startPos; } static bool isResultRowInterpolated(SResultRow* pResult, SResultTsInterpType type) { ASSERT(pResult != NULL && (type == RESULT_ROW_START_INTERP || type == RESULT_ROW_END_INTERP)); if (type == RESULT_ROW_START_INTERP) { return pResult->startInterp == true; } else { return pResult->endInterp == true; } } static void setResultRowInterpo(SResultRow* pResult, SResultTsInterpType type) { assert(pResult != NULL && (type == RESULT_ROW_START_INTERP || type == RESULT_ROW_END_INTERP)); if (type == RESULT_ROW_START_INTERP) { pResult->startInterp = true; } else { pResult->endInterp = true; } } static void doWindowBorderInterpolation(SIntervalAggOperatorInfo* pInfo, SSDataBlock* pBlock, SResultRow* pResult, STimeWindow* win, int32_t startPos, int32_t forwardRows, SExprSupp* pSup) { if (!pInfo->timeWindowInterpo) { return; } ASSERT(pBlock != NULL); if (pBlock->pDataBlock == NULL) { // tscError("pBlock->pDataBlock == NULL"); return; } SColumnInfoData* pColInfo = taosArrayGet(pBlock->pDataBlock, pInfo->primaryTsIndex); TSKEY* tsCols = (TSKEY*)(pColInfo->pData); bool done = isResultRowInterpolated(pResult, RESULT_ROW_START_INTERP); if (!done) { // it is not interpolated, now start to generated the interpolated value bool interp = setTimeWindowInterpolationStartTs(pInfo, startPos, pBlock, tsCols, win, pSup); if (interp) { setResultRowInterpo(pResult, RESULT_ROW_START_INTERP); } } else { setNotInterpoWindowKey(pSup->pCtx, pSup->numOfExprs, RESULT_ROW_START_INTERP); } // point interpolation does not require the end key time window interpolation. // if (pointInterpQuery) { // return; // } // interpolation query does not generate the time window end interpolation done = isResultRowInterpolated(pResult, RESULT_ROW_END_INTERP); if (!done) { int32_t endRowIndex = startPos + forwardRows - 1; TSKEY endKey = (pInfo->inputOrder == TSDB_ORDER_ASC) ? pBlock->info.window.ekey : pBlock->info.window.skey; bool interp = setTimeWindowInterpolationEndTs(pInfo, pSup, endRowIndex, pBlock->pDataBlock, tsCols, endKey, win); if (interp) { setResultRowInterpo(pResult, RESULT_ROW_END_INTERP); } } else { setNotInterpoWindowKey(pSup->pCtx, pSup->numOfExprs, RESULT_ROW_END_INTERP); } } static void saveDataBlockLastRow(SArray* pPrevKeys, const SSDataBlock* pBlock, SArray* pCols) { if (pBlock->pDataBlock == NULL) { return; } size_t num = taosArrayGetSize(pPrevKeys); for (int32_t k = 0; k < num; ++k) { SColumn* pc = taosArrayGet(pCols, k); SColumnInfoData* pColInfo = taosArrayGet(pBlock->pDataBlock, pc->slotId); SGroupKeys* pkey = taosArrayGet(pPrevKeys, k); for (int32_t i = pBlock->info.rows - 1; i >= 0; --i) { if (colDataIsNull_s(pColInfo, i)) { continue; } char* val = colDataGetData(pColInfo, i); if (IS_VAR_DATA_TYPE(pkey->type)) { memcpy(pkey->pData, val, varDataTLen(val)); ASSERT(varDataTLen(val) <= pkey->bytes); } else { memcpy(pkey->pData, val, pkey->bytes); } break; } } } static void doInterpUnclosedTimeWindow(SOperatorInfo* pOperatorInfo, int32_t numOfExprs, SResultRowInfo* pResultRowInfo, SSDataBlock* pBlock, int32_t scanFlag, int64_t* tsCols, SResultRowPosition* p) { SExecTaskInfo* pTaskInfo = pOperatorInfo->pTaskInfo; SIntervalAggOperatorInfo* pInfo = (SIntervalAggOperatorInfo*)pOperatorInfo->info; SExprSupp* pSup = &pOperatorInfo->exprSupp; int32_t startPos = 0; int32_t numOfOutput = pSup->numOfExprs; SResultRow* pResult = NULL; while (1) { SListNode* pn = tdListGetHead(pResultRowInfo->openWindow); SOpenWindowInfo* pOpenWin = (SOpenWindowInfo*)pn->data; uint64_t groupId = pOpenWin->groupId; SResultRowPosition* p1 = &pOpenWin->pos; if (p->pageId == p1->pageId && p->offset == p1->offset) { break; } SResultRow* pr = getResultRowByPos(pInfo->aggSup.pResultBuf, p1, false); if (NULL == pr) { T_LONG_JMP(pTaskInfo->env, terrno); } ASSERT(pr->offset == p1->offset && pr->pageId == p1->pageId); if (pr->closed) { ASSERT(isResultRowInterpolated(pr, RESULT_ROW_START_INTERP) && isResultRowInterpolated(pr, RESULT_ROW_END_INTERP)); SListNode* pNode = tdListPopHead(pResultRowInfo->openWindow); taosMemoryFree(pNode); continue; } STimeWindow w = pr->win; int32_t ret = setTimeWindowOutputBuf(pResultRowInfo, &w, (scanFlag == MAIN_SCAN), &pResult, groupId, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } ASSERT(!isResultRowInterpolated(pResult, RESULT_ROW_END_INTERP)); SGroupKeys* pTsKey = taosArrayGet(pInfo->pPrevValues, 0); int64_t prevTs = *(int64_t*)pTsKey->pData; if (groupId == pBlock->info.id.groupId) { doTimeWindowInterpolation(pInfo->pPrevValues, pBlock->pDataBlock, prevTs, -1, tsCols[startPos], startPos, w.ekey, RESULT_ROW_END_INTERP, pSup); } setResultRowInterpo(pResult, RESULT_ROW_END_INTERP); setNotInterpoWindowKey(pSup->pCtx, numOfExprs, RESULT_ROW_START_INTERP); updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &w, true); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &pInfo->twAggSup.timeWindowData, startPos, 0, pBlock->info.rows, numOfExprs); if (isResultRowInterpolated(pResult, RESULT_ROW_END_INTERP)) { closeResultRow(pr); SListNode* pNode = tdListPopHead(pResultRowInfo->openWindow); taosMemoryFree(pNode); } else { // the remains are can not be closed yet. break; } } } typedef int32_t (*__compare_fn_t)(void* pKey, void* data, int32_t index); int32_t binarySearchCom(void* keyList, int num, void* pKey, int order, __compare_fn_t comparefn) { int firstPos = 0, lastPos = num - 1, midPos = -1; int numOfRows = 0; if (num <= 0) return -1; if (order == TSDB_ORDER_DESC) { // find the first position which is smaller or equal than the key while (1) { if (comparefn(pKey, keyList, lastPos) >= 0) return lastPos; if (comparefn(pKey, keyList, firstPos) == 0) return firstPos; if (comparefn(pKey, keyList, firstPos) < 0) return firstPos - 1; numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1) + firstPos; if (comparefn(pKey, keyList, midPos) < 0) { lastPos = midPos - 1; } else if (comparefn(pKey, keyList, midPos) > 0) { firstPos = midPos + 1; } else { break; } } } else { // find the first position which is bigger or equal than the key while (1) { if (comparefn(pKey, keyList, firstPos) <= 0) return firstPos; if (comparefn(pKey, keyList, lastPos) == 0) return lastPos; if (comparefn(pKey, keyList, lastPos) > 0) { lastPos = lastPos + 1; if (lastPos >= num) return -1; else return lastPos; } numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1) + firstPos; if (comparefn(pKey, keyList, midPos) < 0) { lastPos = midPos - 1; } else if (comparefn(pKey, keyList, midPos) > 0) { firstPos = midPos + 1; } else { break; } } } return midPos; } typedef int64_t (*__get_value_fn_t)(void* data, int32_t index); int32_t binarySearch(void* keyList, int num, TSKEY key, int order, __get_value_fn_t getValuefn) { int firstPos = 0, lastPos = num - 1, midPos = -1; int numOfRows = 0; if (num <= 0) return -1; if (order == TSDB_ORDER_DESC) { // find the first position which is smaller or equal than the key while (1) { if (key >= getValuefn(keyList, lastPos)) return lastPos; if (key == getValuefn(keyList, firstPos)) return firstPos; if (key < getValuefn(keyList, firstPos)) return firstPos - 1; numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1) + firstPos; if (key < getValuefn(keyList, midPos)) { lastPos = midPos - 1; } else if (key > getValuefn(keyList, midPos)) { firstPos = midPos + 1; } else { break; } } } else { // find the first position which is bigger or equal than the key while (1) { if (key <= getValuefn(keyList, firstPos)) return firstPos; if (key == getValuefn(keyList, lastPos)) return lastPos; if (key > getValuefn(keyList, lastPos)) { lastPos = lastPos + 1; if (lastPos >= num) return -1; else return lastPos; } numOfRows = lastPos - firstPos + 1; midPos = (numOfRows >> 1) + firstPos; if (key < getValuefn(keyList, midPos)) { lastPos = midPos - 1; } else if (key > getValuefn(keyList, midPos)) { firstPos = midPos + 1; } else { break; } } } return midPos; } int32_t comparePullWinKey(void* pKey, void* data, int32_t index) { SArray* res = (SArray*)data; SPullWindowInfo* pos = taosArrayGet(res, index); SPullWindowInfo* pData = (SPullWindowInfo*)pKey; if (pData->groupId > pos->groupId) { return 1; } else if (pData->groupId < pos->groupId) { return -1; } if (pData->window.skey > pos->window.ekey) { return 1; } else if (pData->window.ekey < pos->window.skey) { return -1; } return 0; } static int32_t savePullWindow(SPullWindowInfo* pPullInfo, SArray* pPullWins) { int32_t size = taosArrayGetSize(pPullWins); int32_t index = binarySearchCom(pPullWins, size, pPullInfo, TSDB_ORDER_DESC, comparePullWinKey); if (index == -1) { index = 0; } else { int32_t code = comparePullWinKey(pPullInfo, pPullWins, index); if (code == 0) { SPullWindowInfo* pos = taosArrayGet(pPullWins, index); pos->window.skey = TMIN(pos->window.skey, pPullInfo->window.skey); pos->window.ekey = TMAX(pos->window.ekey, pPullInfo->window.ekey); pos->calWin.skey = TMIN(pos->calWin.skey, pPullInfo->calWin.skey); pos->calWin.ekey = TMAX(pos->calWin.ekey, pPullInfo->calWin.ekey); return TSDB_CODE_SUCCESS; } else if (code > 0) { index++; } } if (taosArrayInsert(pPullWins, index, pPullInfo) == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } return TSDB_CODE_SUCCESS; } static int32_t saveResult(SResultWindowInfo winInfo, SSHashObj* pStUpdated) { winInfo.sessionWin.win.ekey = winInfo.sessionWin.win.skey; return tSimpleHashPut(pStUpdated, &winInfo.sessionWin, sizeof(SSessionKey), &winInfo, sizeof(SResultWindowInfo)); } static int32_t saveWinResult(int64_t ts, uint64_t groupId, SSHashObj* pUpdatedMap) { SWinKey key = {.ts = ts, .groupId = groupId}; tSimpleHashPut(pUpdatedMap, &key, sizeof(SWinKey), NULL, 0); return TSDB_CODE_SUCCESS; } static int32_t saveWinResultInfo(TSKEY ts, uint64_t groupId, SSHashObj* pUpdatedMap) { return saveWinResult(ts, groupId, pUpdatedMap); } static void removeResults(SArray* pWins, SSHashObj* pUpdatedMap) { int32_t size = taosArrayGetSize(pWins); for (int32_t i = 0; i < size; i++) { SWinKey* pW = taosArrayGet(pWins, i); void* tmp = tSimpleHashGet(pUpdatedMap, pW, sizeof(SWinKey)); if (tmp) { void* value = *(void**)tmp; taosMemoryFree(value); tSimpleHashRemove(pUpdatedMap, pW, sizeof(SWinKey)); } } } int32_t compareWinKey(void* pKey, void* data, int32_t index) { SArray* res = (SArray*)data; SWinKey* pDataPos = taosArrayGet(res, index); SWinKey* pWKey = (SWinKey*)pKey; if (pWKey->groupId > pDataPos->groupId) { return 1; } else if (pWKey->groupId < pDataPos->groupId) { return -1; } if (pWKey->ts > pDataPos->ts) { return 1; } else if (pWKey->ts < pDataPos->ts) { return -1; } return 0; } static void removeDeleteResults(SSHashObj* pUpdatedMap, SArray* pDelWins) { taosArraySort(pDelWins, winKeyCmprImpl); taosArrayRemoveDuplicate(pDelWins, winKeyCmprImpl, NULL); int32_t delSize = taosArrayGetSize(pDelWins); if (tSimpleHashGetSize(pUpdatedMap) == 0 || delSize == 0) { return; } void* pIte = NULL; int32_t iter = 0; while ((pIte = tSimpleHashIterate(pUpdatedMap, pIte, &iter)) != NULL) { SWinKey* pResKey = tSimpleHashGetKey(pIte, NULL); int32_t index = binarySearchCom(pDelWins, delSize, pResKey, TSDB_ORDER_DESC, compareWinKey); if (index >= 0 && 0 == compareWinKey(pResKey, pDelWins, index)) { taosArrayRemove(pDelWins, index); delSize = taosArrayGetSize(pDelWins); } } } bool isOverdue(TSKEY ekey, STimeWindowAggSupp* pTwSup) { ASSERTS(pTwSup->maxTs == INT64_MIN || pTwSup->maxTs > 0, "maxts should greater than 0"); return pTwSup->maxTs != INT64_MIN && ekey < pTwSup->maxTs - pTwSup->waterMark; } bool isCloseWindow(STimeWindow* pWin, STimeWindowAggSupp* pTwSup) { return isOverdue(pWin->ekey, pTwSup); } bool needDeleteWindowBuf(STimeWindow* pWin, STimeWindowAggSupp* pTwSup) { return pTwSup->maxTs != INT64_MIN && pWin->ekey < pTwSup->maxTs - pTwSup->deleteMark; } static void hashIntervalAgg(SOperatorInfo* pOperatorInfo, SResultRowInfo* pResultRowInfo, SSDataBlock* pBlock, int32_t scanFlag) { SIntervalAggOperatorInfo* pInfo = (SIntervalAggOperatorInfo*)pOperatorInfo->info; SExecTaskInfo* pTaskInfo = pOperatorInfo->pTaskInfo; SExprSupp* pSup = &pOperatorInfo->exprSupp; int32_t startPos = 0; int32_t numOfOutput = pSup->numOfExprs; int64_t* tsCols = extractTsCol(pBlock, pInfo); uint64_t tableGroupId = pBlock->info.id.groupId; bool ascScan = (pInfo->inputOrder == TSDB_ORDER_ASC); TSKEY ts = getStartTsKey(&pBlock->info.window, tsCols); SResultRow* pResult = NULL; STimeWindow win = getActiveTimeWindow(pInfo->aggSup.pResultBuf, pResultRowInfo, ts, &pInfo->interval, pInfo->inputOrder); int32_t ret = setTimeWindowOutputBuf(pResultRowInfo, &win, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS || pResult == NULL) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } TSKEY ekey = ascScan ? win.ekey : win.skey; int32_t forwardRows = getNumOfRowsInTimeWindow(&pBlock->info, tsCols, startPos, ekey, binarySearchForKey, NULL, pInfo->inputOrder); // prev time window not interpolation yet. if (pInfo->timeWindowInterpo) { SResultRowPosition pos = addToOpenWindowList(pResultRowInfo, pResult, tableGroupId); doInterpUnclosedTimeWindow(pOperatorInfo, numOfOutput, pResultRowInfo, pBlock, scanFlag, tsCols, &pos); // restore current time window ret = setTimeWindowOutputBuf(pResultRowInfo, &win, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } // window start key interpolation doWindowBorderInterpolation(pInfo, pBlock, pResult, &win, startPos, forwardRows, pSup); } updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &win, true); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &pInfo->twAggSup.timeWindowData, startPos, forwardRows, pBlock->info.rows, numOfOutput); doCloseWindow(pResultRowInfo, pInfo, pResult); STimeWindow nextWin = win; while (1) { int32_t prevEndPos = forwardRows - 1 + startPos; startPos = getNextQualifiedWindow(&pInfo->interval, &nextWin, &pBlock->info, tsCols, prevEndPos, pInfo->inputOrder); if (startPos < 0) { break; } // null data, failed to allocate more memory buffer int32_t code = setTimeWindowOutputBuf(pResultRowInfo, &nextWin, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup, pTaskInfo); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } ekey = ascScan ? nextWin.ekey : nextWin.skey; forwardRows = getNumOfRowsInTimeWindow(&pBlock->info, tsCols, startPos, ekey, binarySearchForKey, NULL, pInfo->inputOrder); // window start(end) key interpolation doWindowBorderInterpolation(pInfo, pBlock, pResult, &nextWin, startPos, forwardRows, pSup); // TODO: add to open window? how to close the open windows after input blocks exhausted? #if 0 if ((ascScan && ekey <= pBlock->info.window.ekey) || (!ascScan && ekey >= pBlock->info.window.skey)) { // window start(end) key interpolation doWindowBorderInterpolation(pInfo, pBlock, pResult, &nextWin, startPos, forwardRows, pSup); } else if (pInfo->timeWindowInterpo) { addToOpenWindowList(pResultRowInfo, pResult, tableGroupId); } #endif updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &nextWin, true); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &pInfo->twAggSup.timeWindowData, startPos, forwardRows, pBlock->info.rows, numOfOutput); doCloseWindow(pResultRowInfo, pInfo, pResult); } if (pInfo->timeWindowInterpo) { saveDataBlockLastRow(pInfo->pPrevValues, pBlock, pInfo->pInterpCols); } } void doCloseWindow(SResultRowInfo* pResultRowInfo, const SIntervalAggOperatorInfo* pInfo, SResultRow* pResult) { // current result is done in computing final results. if (pInfo->timeWindowInterpo && isResultRowInterpolated(pResult, RESULT_ROW_END_INTERP)) { closeResultRow(pResult); SListNode* pNode = tdListPopHead(pResultRowInfo->openWindow); taosMemoryFree(pNode); } } SResultRowPosition addToOpenWindowList(SResultRowInfo* pResultRowInfo, const SResultRow* pResult, uint64_t groupId) { SOpenWindowInfo openWin = {0}; openWin.pos.pageId = pResult->pageId; openWin.pos.offset = pResult->offset; openWin.groupId = groupId; SListNode* pn = tdListGetTail(pResultRowInfo->openWindow); if (pn == NULL) { tdListAppend(pResultRowInfo->openWindow, &openWin); return openWin.pos; } SOpenWindowInfo* px = (SOpenWindowInfo*)pn->data; if (px->pos.pageId != openWin.pos.pageId || px->pos.offset != openWin.pos.offset || px->groupId != openWin.groupId) { tdListAppend(pResultRowInfo->openWindow, &openWin); } return openWin.pos; } int64_t* extractTsCol(SSDataBlock* pBlock, const SIntervalAggOperatorInfo* pInfo) { TSKEY* tsCols = NULL; if (pBlock->pDataBlock != NULL && pBlock->info.dataLoad) { SColumnInfoData* pColDataInfo = taosArrayGet(pBlock->pDataBlock, pInfo->primaryTsIndex); tsCols = (int64_t*)pColDataInfo->pData; ASSERT(tsCols[0] != 0); // no data in primary ts if (tsCols[0] == 0 && tsCols[pBlock->info.rows - 1] == 0) { return NULL; } if (tsCols[0] != 0 && (pBlock->info.window.skey == 0 && pBlock->info.window.ekey == 0)) { blockDataUpdateTsWindow(pBlock, pInfo->primaryTsIndex); } } return tsCols; } static int32_t doOpenIntervalAgg(SOperatorInfo* pOperator) { if (OPTR_IS_OPENED(pOperator)) { return TSDB_CODE_SUCCESS; } SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SOperatorInfo* downstream = pOperator->pDownstream[0]; SIntervalAggOperatorInfo* pInfo = pOperator->info; SExprSupp* pSup = &pOperator->exprSupp; int32_t scanFlag = MAIN_SCAN; int64_t st = taosGetTimestampUs(); while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { break; } getTableScanInfo(pOperator, &pInfo->inputOrder, &scanFlag, true); if (pInfo->scalarSupp.pExprInfo != NULL) { SExprSupp* pExprSup = &pInfo->scalarSupp; projectApplyFunctions(pExprSup->pExprInfo, pBlock, pBlock, pExprSup->pCtx, pExprSup->numOfExprs, NULL); } // the pDataBlock are always the same one, no need to call this again setInputDataBlock(pSup, pBlock, pInfo->inputOrder, scanFlag, true); hashIntervalAgg(pOperator, &pInfo->binfo.resultRowInfo, pBlock, scanFlag); } initGroupedResultInfo(&pInfo->groupResInfo, pInfo->aggSup.pResultRowHashTable, pInfo->resultTsOrder); OPTR_SET_OPENED(pOperator); pOperator->cost.openCost = (taosGetTimestampUs() - st) / 1000.0; return TSDB_CODE_SUCCESS; } static bool compareVal(const char* v, const SStateKeys* pKey) { if (IS_VAR_DATA_TYPE(pKey->type)) { if (varDataLen(v) != varDataLen(pKey->pData)) { return false; } else { return memcmp(varDataVal(v), varDataVal(pKey->pData), varDataLen(v)) == 0; } } else { return memcmp(pKey->pData, v, pKey->bytes) == 0; } } static void doStateWindowAggImpl(SOperatorInfo* pOperator, SStateWindowOperatorInfo* pInfo, SSDataBlock* pBlock) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SExprSupp* pSup = &pOperator->exprSupp; SColumnInfoData* pStateColInfoData = taosArrayGet(pBlock->pDataBlock, pInfo->stateCol.slotId); int64_t gid = pBlock->info.id.groupId; bool masterScan = true; int32_t numOfOutput = pOperator->exprSupp.numOfExprs; int16_t bytes = pStateColInfoData->info.bytes; SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, pInfo->tsSlotId); TSKEY* tsList = (TSKEY*)pColInfoData->pData; SWindowRowsSup* pRowSup = &pInfo->winSup; pRowSup->numOfRows = 0; struct SColumnDataAgg* pAgg = NULL; for (int32_t j = 0; j < pBlock->info.rows; ++j) { pAgg = (pBlock->pBlockAgg != NULL) ? pBlock->pBlockAgg[pInfo->stateCol.slotId] : NULL; if (colDataIsNull(pStateColInfoData, pBlock->info.rows, j, pAgg)) { continue; } char* val = colDataGetData(pStateColInfoData, j); if (gid != pRowSup->groupId || !pInfo->hasKey) { // todo extract method if (IS_VAR_DATA_TYPE(pInfo->stateKey.type)) { varDataCopy(pInfo->stateKey.pData, val); } else { memcpy(pInfo->stateKey.pData, val, bytes); } pInfo->hasKey = true; doKeepNewWindowStartInfo(pRowSup, tsList, j, gid); doKeepTuple(pRowSup, tsList[j], gid); } else if (compareVal(val, &pInfo->stateKey)) { doKeepTuple(pRowSup, tsList[j], gid); if (j == 0 && pRowSup->startRowIndex != 0) { pRowSup->startRowIndex = 0; } } else { // a new state window started SResultRow* pResult = NULL; // keep the time window for the closed time window. STimeWindow window = pRowSup->win; pRowSup->win.ekey = pRowSup->win.skey; int32_t ret = setTimeWindowOutputBuf(&pInfo->binfo.resultRowInfo, &window, masterScan, &pResult, gid, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { // null data, too many state code T_LONG_JMP(pTaskInfo->env, TSDB_CODE_APP_ERROR); } updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &window, false); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &pInfo->twAggSup.timeWindowData, pRowSup->startRowIndex, pRowSup->numOfRows, pBlock->info.rows, numOfOutput); // here we start a new session window doKeepNewWindowStartInfo(pRowSup, tsList, j, gid); doKeepTuple(pRowSup, tsList[j], gid); // todo extract method if (IS_VAR_DATA_TYPE(pInfo->stateKey.type)) { varDataCopy(pInfo->stateKey.pData, val); } else { memcpy(pInfo->stateKey.pData, val, bytes); } } } SResultRow* pResult = NULL; pRowSup->win.ekey = tsList[pBlock->info.rows - 1]; int32_t ret = setTimeWindowOutputBuf(&pInfo->binfo.resultRowInfo, &pRowSup->win, masterScan, &pResult, gid, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { // null data, too many state code T_LONG_JMP(pTaskInfo->env, TSDB_CODE_APP_ERROR); } updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pRowSup->win, false); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &pInfo->twAggSup.timeWindowData, pRowSup->startRowIndex, pRowSup->numOfRows, pBlock->info.rows, numOfOutput); } static int32_t openStateWindowAggOptr(SOperatorInfo* pOperator) { if (OPTR_IS_OPENED(pOperator)) { return TSDB_CODE_SUCCESS; } SStateWindowOperatorInfo* pInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SExprSupp* pSup = &pOperator->exprSupp; int32_t order = TSDB_ORDER_ASC; int64_t st = taosGetTimestampUs(); SOperatorInfo* downstream = pOperator->pDownstream[0]; while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { break; } setInputDataBlock(pSup, pBlock, order, MAIN_SCAN, true); blockDataUpdateTsWindow(pBlock, pInfo->tsSlotId); // there is an scalar expression that needs to be calculated right before apply the group aggregation. if (pInfo->scalarSup.pExprInfo != NULL) { pTaskInfo->code = projectApplyFunctions(pInfo->scalarSup.pExprInfo, pBlock, pBlock, pInfo->scalarSup.pCtx, pInfo->scalarSup.numOfExprs, NULL); if (pTaskInfo->code != TSDB_CODE_SUCCESS) { T_LONG_JMP(pTaskInfo->env, pTaskInfo->code); } } doStateWindowAggImpl(pOperator, pInfo, pBlock); } pOperator->cost.openCost = (taosGetTimestampUs() - st) / 1000.0; initGroupedResultInfo(&pInfo->groupResInfo, pInfo->aggSup.pResultRowHashTable, TSDB_ORDER_ASC); pOperator->status = OP_RES_TO_RETURN; return TSDB_CODE_SUCCESS; } static SSDataBlock* doStateWindowAgg(SOperatorInfo* pOperator) { if (pOperator->status == OP_EXEC_DONE) { return NULL; } SStateWindowOperatorInfo* pInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SOptrBasicInfo* pBInfo = &pInfo->binfo; pTaskInfo->code = pOperator->fpSet._openFn(pOperator); if (pTaskInfo->code != TSDB_CODE_SUCCESS) { setOperatorCompleted(pOperator); return NULL; } blockDataEnsureCapacity(pBInfo->pRes, pOperator->resultInfo.capacity); while (1) { doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); doFilter(pBInfo->pRes, pOperator->exprSupp.pFilterInfo, NULL); bool hasRemain = hasRemainResults(&pInfo->groupResInfo); if (!hasRemain) { setOperatorCompleted(pOperator); break; } if (pBInfo->pRes->info.rows > 0) { break; } } pOperator->resultInfo.totalRows += pBInfo->pRes->info.rows; return (pBInfo->pRes->info.rows == 0) ? NULL : pBInfo->pRes; } static SSDataBlock* doBuildIntervalResult(SOperatorInfo* pOperator) { SIntervalAggOperatorInfo* pInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; if (pOperator->status == OP_EXEC_DONE) { return NULL; } SSDataBlock* pBlock = pInfo->binfo.pRes; pTaskInfo->code = pOperator->fpSet._openFn(pOperator); if (pTaskInfo->code != TSDB_CODE_SUCCESS) { return NULL; } while (1) { doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); doFilter(pBlock, pOperator->exprSupp.pFilterInfo, NULL); bool hasRemain = hasRemainResults(&pInfo->groupResInfo); if (!hasRemain) { setOperatorCompleted(pOperator); break; } if (pBlock->info.rows > 0) { break; } } size_t rows = pBlock->info.rows; pOperator->resultInfo.totalRows += rows; return (rows == 0) ? NULL : pBlock; } static void setInverFunction(SqlFunctionCtx* pCtx, int32_t num, EStreamType type) { for (int i = 0; i < num; i++) { if (type == STREAM_INVERT) { fmSetInvertFunc(pCtx[i].functionId, &(pCtx[i].fpSet)); } else if (type == STREAM_NORMAL) { fmSetNormalFunc(pCtx[i].functionId, &(pCtx[i].fpSet)); } } } static void doClearWindowImpl(SResultRowPosition* p1, SDiskbasedBuf* pResultBuf, SExprSupp* pSup, int32_t numOfOutput) { SResultRow* pResult = getResultRowByPos(pResultBuf, p1, false); if (NULL == pResult) { return; } SqlFunctionCtx* pCtx = pSup->pCtx; for (int32_t i = 0; i < numOfOutput; ++i) { pCtx[i].resultInfo = getResultEntryInfo(pResult, i, pSup->rowEntryInfoOffset); struct SResultRowEntryInfo* pResInfo = pCtx[i].resultInfo; if (fmIsWindowPseudoColumnFunc(pCtx[i].functionId)) { continue; } pResInfo->initialized = false; if (pCtx[i].functionId != -1) { pCtx[i].fpSet.init(&pCtx[i], pResInfo); } } SFilePage* bufPage = getBufPage(pResultBuf, p1->pageId); if (NULL == bufPage) { return; } setBufPageDirty(bufPage, true); releaseBufPage(pResultBuf, bufPage); } static bool doDeleteWindow(SOperatorInfo* pOperator, TSKEY ts, uint64_t groupId) { SStreamIntervalOperatorInfo* pInfo = pOperator->info; SWinKey key = {.ts = ts, .groupId = groupId}; tSimpleHashRemove(pInfo->aggSup.pResultRowHashTable, &key, sizeof(SWinKey)); streamStateDel(pInfo->pState, &key); return true; } static void doDeleteWindows(SOperatorInfo* pOperator, SInterval* pInterval, SSDataBlock* pBlock, SArray* pUpWins, SSHashObj* pUpdatedMap) { SStreamIntervalOperatorInfo* pInfo = pOperator->info; SColumnInfoData* pStartTsCol = taosArrayGet(pBlock->pDataBlock, START_TS_COLUMN_INDEX); TSKEY* startTsCols = (TSKEY*)pStartTsCol->pData; SColumnInfoData* pEndTsCol = taosArrayGet(pBlock->pDataBlock, END_TS_COLUMN_INDEX); TSKEY* endTsCols = (TSKEY*)pEndTsCol->pData; SColumnInfoData* pCalStTsCol = taosArrayGet(pBlock->pDataBlock, CALCULATE_START_TS_COLUMN_INDEX); TSKEY* calStTsCols = (TSKEY*)pCalStTsCol->pData; SColumnInfoData* pCalEnTsCol = taosArrayGet(pBlock->pDataBlock, CALCULATE_END_TS_COLUMN_INDEX); TSKEY* calEnTsCols = (TSKEY*)pCalEnTsCol->pData; SColumnInfoData* pGpCol = taosArrayGet(pBlock->pDataBlock, GROUPID_COLUMN_INDEX); uint64_t* pGpDatas = (uint64_t*)pGpCol->pData; for (int32_t i = 0; i < pBlock->info.rows; i++) { SResultRowInfo dumyInfo = {0}; dumyInfo.cur.pageId = -1; STimeWindow win = {0}; if (IS_FINAL_OP(pInfo)) { win.skey = startTsCols[i]; win.ekey = endTsCols[i]; } else { win = getActiveTimeWindow(NULL, &dumyInfo, startTsCols[i], pInterval, TSDB_ORDER_ASC); } do { if (!inCalSlidingWindow(pInterval, &win, calStTsCols[i], calEnTsCols[i])) { getNextTimeWindow(pInterval, pInterval->precision, TSDB_ORDER_ASC, &win); continue; } uint64_t winGpId = pGpDatas[i]; bool res = doDeleteWindow(pOperator, win.skey, winGpId); SWinKey winRes = {.ts = win.skey, .groupId = winGpId}; if (pUpWins && res) { taosArrayPush(pUpWins, &winRes); } if (pUpdatedMap) { tSimpleHashRemove(pUpdatedMap, &winRes, sizeof(SWinKey)); } getNextTimeWindow(pInterval, pInterval->precision, TSDB_ORDER_ASC, &win); } while (win.ekey <= endTsCols[i]); } } static int32_t getAllIntervalWindow(SSHashObj* pHashMap, SSHashObj* resWins) { void* pIte = NULL; int32_t iter = 0; while ((pIte = tSimpleHashIterate(pHashMap, pIte, &iter)) != NULL) { SWinKey* pKey = tSimpleHashGetKey(pIte, NULL); uint64_t groupId = pKey->groupId; TSKEY ts = pKey->ts; int32_t code = saveWinResult(ts, groupId, resWins); if (code != TSDB_CODE_SUCCESS) { return code; } } return TSDB_CODE_SUCCESS; } static int32_t closeStreamIntervalWindow(SSHashObj* pHashMap, STimeWindowAggSupp* pTwSup, SInterval* pInterval, SHashObj* pPullDataMap, SSHashObj* closeWins, SArray* pDelWins, SOperatorInfo* pOperator) { qDebug("===stream===close interval window"); void* pIte = NULL; int32_t iter = 0; SStreamIntervalOperatorInfo* pInfo = pOperator->info; int32_t delSize = taosArrayGetSize(pDelWins); while ((pIte = tSimpleHashIterate(pHashMap, pIte, &iter)) != NULL) { void* key = tSimpleHashGetKey(pIte, NULL); SWinKey* pWinKey = (SWinKey*)key; if (delSize > 0) { int32_t index = binarySearchCom(pDelWins, delSize, pWinKey, TSDB_ORDER_DESC, compareWinKey); if (index >= 0 && 0 == compareWinKey(pWinKey, pDelWins, index)) { taosArrayRemove(pDelWins, index); delSize = taosArrayGetSize(pDelWins); } } void* chIds = taosHashGet(pPullDataMap, pWinKey, sizeof(SWinKey)); STimeWindow win = { .skey = pWinKey->ts, .ekey = taosTimeAdd(win.skey, pInterval->interval, pInterval->intervalUnit, pInterval->precision) - 1, }; if (isCloseWindow(&win, pTwSup)) { if (chIds && pPullDataMap) { SArray* chAy = *(SArray**)chIds; int32_t size = taosArrayGetSize(chAy); qDebug("===stream===window %" PRId64 " wait child size:%d", pWinKey->ts, size); for (int32_t i = 0; i < size; i++) { qDebug("===stream===window %" PRId64 " wait child id:%d", pWinKey->ts, *(int32_t*)taosArrayGet(chAy, i)); } continue; } else if (pPullDataMap) { qDebug("===stream===close window %" PRId64, pWinKey->ts); } if (pTwSup->calTrigger == STREAM_TRIGGER_WINDOW_CLOSE) { int32_t code = saveWinResultInfo(pWinKey->ts, pWinKey->groupId, closeWins); if (code != TSDB_CODE_SUCCESS) { return code; } } tSimpleHashIterateRemove(pHashMap, pWinKey, sizeof(SWinKey), &pIte, &iter); } } return TSDB_CODE_SUCCESS; } STimeWindow getFinalTimeWindow(int64_t ts, SInterval* pInterval) { STimeWindow w = {.skey = ts, .ekey = INT64_MAX}; w.ekey = taosTimeAdd(w.skey, pInterval->interval, pInterval->intervalUnit, pInterval->precision) - 1; return w; } static void deleteIntervalDiscBuf(SStreamState* pState, SHashObj* pPullDataMap, TSKEY mark, SInterval* pInterval, SWinKey* key) { STimeWindow tw = getFinalTimeWindow(key->ts, pInterval); SWinKey next = {0}; while (tw.ekey < mark) { SStreamStateCur* pCur = streamStateSeekKeyNext(pState, key); int32_t code = streamStateGetKVByCur(pCur, &next, NULL, 0); streamStateFreeCur(pCur); void* chIds = taosHashGet(pPullDataMap, key, sizeof(SWinKey)); if (chIds && pPullDataMap) { SArray* chAy = *(SArray**)chIds; int32_t size = taosArrayGetSize(chAy); qDebug("===stream===window %" PRId64 " wait child size:%d", key->ts, size); for (int32_t i = 0; i < size; i++) { qDebug("===stream===window %" PRId64 " wait child id:%d", key->ts, *(int32_t*)taosArrayGet(chAy, i)); } break; } qDebug("===stream===delete window %" PRId64, key->ts); int32_t codeDel = streamStateDel(pState, key); if (codeDel != TSDB_CODE_SUCCESS) { code = streamStateGetFirst(pState, key); if (code != TSDB_CODE_SUCCESS) { qDebug("===stream===stream state first key: empty-empty"); return; } continue; } if (code == TSDB_CODE_SUCCESS) { *key = next; tw = getFinalTimeWindow(key->ts, pInterval); } } // for debug if (qDebugFlag & DEBUG_DEBUG && mark > 0) { SStreamStateCur* pCur = streamStateGetCur(pState, key); int32_t code = streamStateCurPrev(pState, pCur); if (code == TSDB_CODE_SUCCESS) { SWinKey tmpKey = {0}; code = streamStateGetKVByCur(pCur, &tmpKey, NULL, 0); if (code == TSDB_CODE_SUCCESS) { STimeWindow tw = getFinalTimeWindow(tmpKey.ts, pInterval); qDebug("===stream===error stream state first key:%" PRId64 "-%" PRId64 ",%" PRIu64 ",mark %" PRId64, tw.skey, tw.ekey, tmpKey.groupId, mark); } else { STimeWindow tw = getFinalTimeWindow(key->ts, pInterval); qDebug("===stream===stream state first key:%" PRId64 "-%" PRId64 ",%" PRIu64 ",mark %" PRId64, tw.skey, tw.ekey, key->groupId, mark); } } else { STimeWindow tw = getFinalTimeWindow(key->ts, pInterval); qDebug("===stream===stream state first key:%" PRId64 "-%" PRId64 ",%" PRIu64 ",mark %" PRId64, tw.skey, tw.ekey, key->groupId, mark); } streamStateFreeCur(pCur); } } static void closeChildIntervalWindow(SOperatorInfo* pOperator, SArray* pChildren, TSKEY maxTs) { int32_t size = taosArrayGetSize(pChildren); for (int32_t i = 0; i < size; i++) { SOperatorInfo* pChildOp = taosArrayGetP(pChildren, i); SStreamIntervalOperatorInfo* pChInfo = pChildOp->info; ASSERTS(pChInfo->twAggSup.calTrigger == STREAM_TRIGGER_AT_ONCE, "children trigger type should be at once"); pChInfo->twAggSup.maxTs = TMAX(pChInfo->twAggSup.maxTs, maxTs); closeStreamIntervalWindow(pChInfo->aggSup.pResultRowHashTable, &pChInfo->twAggSup, &pChInfo->interval, NULL, NULL, NULL, pOperator); } } static void doBuildDeleteResult(SStreamIntervalOperatorInfo* pInfo, SArray* pWins, int32_t* index, SSDataBlock* pBlock) { blockDataCleanup(pBlock); int32_t size = taosArrayGetSize(pWins); if (*index == size) { *index = 0; taosArrayClear(pWins); return; } blockDataEnsureCapacity(pBlock, size - *index); uint64_t uid = 0; for (int32_t i = *index; i < size; i++) { SWinKey* pWin = taosArrayGet(pWins, i); void* tbname = NULL; streamStateGetParName(pInfo->pState, pWin->groupId, &tbname); if (tbname == NULL) { appendOneRowToStreamSpecialBlock(pBlock, &pWin->ts, &pWin->ts, &uid, &pWin->groupId, NULL); } else { char parTbName[VARSTR_HEADER_SIZE + TSDB_TABLE_NAME_LEN]; STR_WITH_MAXSIZE_TO_VARSTR(parTbName, tbname, sizeof(parTbName)); appendOneRowToStreamSpecialBlock(pBlock, &pWin->ts, &pWin->ts, &uid, &pWin->groupId, parTbName); } tdbFree(tbname); (*index)++; } } static void destroyStateWindowOperatorInfo(void* param) { SStateWindowOperatorInfo* pInfo = (SStateWindowOperatorInfo*)param; cleanupBasicInfo(&pInfo->binfo); taosMemoryFreeClear(pInfo->stateKey.pData); cleanupExprSupp(&pInfo->scalarSup); colDataDestroy(&pInfo->twAggSup.timeWindowData); cleanupAggSup(&pInfo->aggSup); cleanupGroupResInfo(&pInfo->groupResInfo); taosMemoryFreeClear(param); } static void freeItem(void* param) { SGroupKeys* pKey = (SGroupKeys*)param; taosMemoryFree(pKey->pData); } void destroyIntervalOperatorInfo(void* param) { SIntervalAggOperatorInfo* pInfo = (SIntervalAggOperatorInfo*)param; cleanupBasicInfo(&pInfo->binfo); cleanupAggSup(&pInfo->aggSup); cleanupExprSupp(&pInfo->scalarSupp); tdListFree(pInfo->binfo.resultRowInfo.openWindow); pInfo->pInterpCols = taosArrayDestroy(pInfo->pInterpCols); taosArrayDestroyEx(pInfo->pPrevValues, freeItem); pInfo->pPrevValues = NULL; cleanupGroupResInfo(&pInfo->groupResInfo); colDataDestroy(&pInfo->twAggSup.timeWindowData); taosMemoryFreeClear(param); } void destroyStreamFinalIntervalOperatorInfo(void* param) { SStreamIntervalOperatorInfo* pInfo = (SStreamIntervalOperatorInfo*)param; cleanupBasicInfo(&pInfo->binfo); cleanupAggSup(&pInfo->aggSup); // it should be empty. taosHashCleanup(pInfo->pPullDataMap); taosArrayDestroy(pInfo->pPullWins); blockDataDestroy(pInfo->pPullDataRes); taosArrayDestroy(pInfo->pDelWins); blockDataDestroy(pInfo->pDelRes); taosMemoryFreeClear(pInfo->pState); if (pInfo->pChildren) { int32_t size = taosArrayGetSize(pInfo->pChildren); for (int32_t i = 0; i < size; i++) { SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, i); destroyOperatorInfo(pChildOp); } taosArrayDestroy(pInfo->pChildren); } nodesDestroyNode((SNode*)pInfo->pPhyNode); colDataDestroy(&pInfo->twAggSup.timeWindowData); pInfo->groupResInfo.pRows = taosArrayDestroy(pInfo->groupResInfo.pRows); cleanupExprSupp(&pInfo->scalarSupp); taosMemoryFreeClear(param); } static bool allInvertible(SqlFunctionCtx* pFCtx, int32_t numOfCols) { for (int32_t i = 0; i < numOfCols; i++) { if (fmIsUserDefinedFunc(pFCtx[i].functionId) || !fmIsInvertible(pFCtx[i].functionId)) { return false; } } return true; } static bool timeWindowinterpNeeded(SqlFunctionCtx* pCtx, int32_t numOfCols, SIntervalAggOperatorInfo* pInfo) { // the primary timestamp column bool needed = false; for (int32_t i = 0; i < numOfCols; ++i) { SExprInfo* pExpr = pCtx[i].pExpr; if (fmIsIntervalInterpoFunc(pCtx[i].functionId)) { needed = true; break; } } if (needed) { pInfo->pInterpCols = taosArrayInit(4, sizeof(SColumn)); pInfo->pPrevValues = taosArrayInit(4, sizeof(SGroupKeys)); { // ts column SColumn c = {0}; c.colId = 1; c.slotId = pInfo->primaryTsIndex; c.type = TSDB_DATA_TYPE_TIMESTAMP; c.bytes = sizeof(int64_t); taosArrayPush(pInfo->pInterpCols, &c); SGroupKeys key; key.bytes = c.bytes; key.type = c.type; key.isNull = true; // to denote no value is assigned yet key.pData = taosMemoryCalloc(1, c.bytes); taosArrayPush(pInfo->pPrevValues, &key); } } for (int32_t i = 0; i < numOfCols; ++i) { SExprInfo* pExpr = pCtx[i].pExpr; if (fmIsIntervalInterpoFunc(pCtx[i].functionId)) { SFunctParam* pParam = &pExpr->base.pParam[0]; SColumn c = *pParam->pCol; taosArrayPush(pInfo->pInterpCols, &c); SGroupKeys key = {0}; key.bytes = c.bytes; key.type = c.type; key.isNull = false; key.pData = taosMemoryCalloc(1, c.bytes); taosArrayPush(pInfo->pPrevValues, &key); } } return needed; } void initIntervalDownStream(SOperatorInfo* downstream, uint16_t type, SAggSupporter* pSup, SInterval* pInterval, STimeWindowAggSupp* pTwSup) { if (downstream->operatorType != QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN) { initIntervalDownStream(downstream->pDownstream[0], type, pSup, pInterval, pTwSup); return; } SStreamScanInfo* pScanInfo = downstream->info; pScanInfo->windowSup.parentType = type; pScanInfo->windowSup.pIntervalAggSup = pSup; if (!pScanInfo->igCheckUpdate && !pScanInfo->pUpdateInfo) { pScanInfo->pUpdateInfo = updateInfoInitP(pInterval, pTwSup->waterMark); } pScanInfo->interval = *pInterval; pScanInfo->twAggSup = *pTwSup; } void initStreamFunciton(SqlFunctionCtx* pCtx, int32_t numOfExpr) { for (int32_t i = 0; i < numOfExpr; i++) { // pCtx[i].isStream = true; } } SOperatorInfo* createIntervalOperatorInfo(SOperatorInfo* downstream, SIntervalPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo) { SIntervalAggOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SIntervalAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } SSDataBlock* pResBlock = createDataBlockFromDescNode(pPhyNode->window.node.pOutputDataBlockDesc); initBasicInfo(&pInfo->binfo, pResBlock); SExprSupp* pSup = &pOperator->exprSupp; pInfo->primaryTsIndex = ((SColumnNode*)pPhyNode->window.pTspk)->slotId; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(&pOperator->resultInfo, 512); blockDataEnsureCapacity(pInfo->binfo.pRes, pOperator->resultInfo.capacity); int32_t num = 0; SExprInfo* pExprInfo = createExprInfo(pPhyNode->window.pFuncs, NULL, &num); int32_t code = initAggSup(pSup, &pInfo->aggSup, pExprInfo, num, keyBufSize, pTaskInfo->id.str, pTaskInfo->streamInfo.pState); if (code != TSDB_CODE_SUCCESS) { goto _error; } SInterval interval = {.interval = pPhyNode->interval, .sliding = pPhyNode->sliding, .intervalUnit = pPhyNode->intervalUnit, .slidingUnit = pPhyNode->slidingUnit, .offset = pPhyNode->offset, .precision = ((SColumnNode*)pPhyNode->window.pTspk)->node.resType.precision}; STimeWindowAggSupp as = { .waterMark = pPhyNode->window.watermark, .calTrigger = pPhyNode->window.triggerType, .maxTs = INT64_MIN, }; pInfo->win = pTaskInfo->window; pInfo->inputOrder = (pPhyNode->window.inputTsOrder == ORDER_ASC) ? TSDB_ORDER_ASC : TSDB_ORDER_DESC; pInfo->resultTsOrder = (pPhyNode->window.outputTsOrder == ORDER_ASC) ? TSDB_ORDER_ASC : TSDB_ORDER_DESC; pInfo->interval = interval; pInfo->twAggSup = as; pInfo->binfo.mergeResultBlock = pPhyNode->window.mergeDataBlock; if (pPhyNode->window.pExprs != NULL) { int32_t numOfScalar = 0; SExprInfo* pScalarExprInfo = createExprInfo(pPhyNode->window.pExprs, NULL, &numOfScalar); code = initExprSupp(&pInfo->scalarSupp, pScalarExprInfo, numOfScalar); if (code != TSDB_CODE_SUCCESS) { goto _error; } } code = filterInitFromNode((SNode*)pPhyNode->window.node.pConditions, &pOperator->exprSupp.pFilterInfo, 0); if (code != TSDB_CODE_SUCCESS) { goto _error; } initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pInfo->win); pInfo->timeWindowInterpo = timeWindowinterpNeeded(pSup->pCtx, num, pInfo); if (pInfo->timeWindowInterpo) { pInfo->binfo.resultRowInfo.openWindow = tdListNew(sizeof(SOpenWindowInfo)); if (pInfo->binfo.resultRowInfo.openWindow == NULL) { goto _error; } } initResultRowInfo(&pInfo->binfo.resultRowInfo); setOperatorInfo(pOperator, "TimeIntervalAggOperator", QUERY_NODE_PHYSICAL_PLAN_HASH_INTERVAL, true, OP_NOT_OPENED, pInfo, pTaskInfo); pOperator->fpSet = createOperatorFpSet(doOpenIntervalAgg, doBuildIntervalResult, NULL, destroyIntervalOperatorInfo, optrDefaultBufFn, NULL); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: if (pInfo != NULL) { destroyIntervalOperatorInfo(pInfo); } taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } // todo handle multiple timeline cases. assume no timeline interweaving static void doSessionWindowAggImpl(SOperatorInfo* pOperator, SSessionAggOperatorInfo* pInfo, SSDataBlock* pBlock) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SExprSupp* pSup = &pOperator->exprSupp; SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, pInfo->tsSlotId); bool masterScan = true; int32_t numOfOutput = pOperator->exprSupp.numOfExprs; int64_t gid = pBlock->info.id.groupId; int64_t gap = pInfo->gap; if (!pInfo->reptScan) { pInfo->reptScan = true; pInfo->winSup.prevTs = INT64_MIN; } SWindowRowsSup* pRowSup = &pInfo->winSup; pRowSup->numOfRows = 0; // In case of ascending or descending order scan data, only one time window needs to be kepted for each table. TSKEY* tsList = (TSKEY*)pColInfoData->pData; for (int32_t j = 0; j < pBlock->info.rows; ++j) { if (gid != pRowSup->groupId || pInfo->winSup.prevTs == INT64_MIN) { doKeepNewWindowStartInfo(pRowSup, tsList, j, gid); doKeepTuple(pRowSup, tsList[j], gid); } else if (((tsList[j] - pRowSup->prevTs >= 0) && (tsList[j] - pRowSup->prevTs <= gap)) || ((pRowSup->prevTs - tsList[j] >= 0) && (pRowSup->prevTs - tsList[j] <= gap))) { // The gap is less than the threshold, so it belongs to current session window that has been opened already. doKeepTuple(pRowSup, tsList[j], gid); if (j == 0 && pRowSup->startRowIndex != 0) { pRowSup->startRowIndex = 0; } } else { // start a new session window SResultRow* pResult = NULL; // keep the time window for the closed time window. STimeWindow window = pRowSup->win; pRowSup->win.ekey = pRowSup->win.skey; int32_t ret = setTimeWindowOutputBuf(&pInfo->binfo.resultRowInfo, &window, masterScan, &pResult, gid, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { // null data, too many state code T_LONG_JMP(pTaskInfo->env, TSDB_CODE_APP_ERROR); } // pInfo->numOfRows data belong to the current session window updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &window, false); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &pInfo->twAggSup.timeWindowData, pRowSup->startRowIndex, pRowSup->numOfRows, pBlock->info.rows, numOfOutput); // here we start a new session window doKeepNewWindowStartInfo(pRowSup, tsList, j, gid); doKeepTuple(pRowSup, tsList[j], gid); } } SResultRow* pResult = NULL; pRowSup->win.ekey = tsList[pBlock->info.rows - 1]; int32_t ret = setTimeWindowOutputBuf(&pInfo->binfo.resultRowInfo, &pRowSup->win, masterScan, &pResult, gid, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { // null data, too many state code T_LONG_JMP(pTaskInfo->env, TSDB_CODE_APP_ERROR); } updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pRowSup->win, false); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &pInfo->twAggSup.timeWindowData, pRowSup->startRowIndex, pRowSup->numOfRows, pBlock->info.rows, numOfOutput); } static SSDataBlock* doSessionWindowAgg(SOperatorInfo* pOperator) { if (pOperator->status == OP_EXEC_DONE) { return NULL; } SSessionAggOperatorInfo* pInfo = pOperator->info; SOptrBasicInfo* pBInfo = &pInfo->binfo; SExprSupp* pSup = &pOperator->exprSupp; if (pOperator->status == OP_RES_TO_RETURN) { while (1) { doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); doFilter(pBInfo->pRes, pOperator->exprSupp.pFilterInfo, NULL); bool hasRemain = hasRemainResults(&pInfo->groupResInfo); if (!hasRemain) { setOperatorCompleted(pOperator); break; } if (pBInfo->pRes->info.rows > 0) { break; } } pOperator->resultInfo.totalRows += pBInfo->pRes->info.rows; return (pBInfo->pRes->info.rows == 0) ? NULL : pBInfo->pRes; } int64_t st = taosGetTimestampUs(); int32_t order = TSDB_ORDER_ASC; SOperatorInfo* downstream = pOperator->pDownstream[0]; while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { break; } // the pDataBlock are always the same one, no need to call this again setInputDataBlock(pSup, pBlock, order, MAIN_SCAN, true); blockDataUpdateTsWindow(pBlock, pInfo->tsSlotId); doSessionWindowAggImpl(pOperator, pInfo, pBlock); } pOperator->cost.openCost = (taosGetTimestampUs() - st) / 1000.0; // restore the value pOperator->status = OP_RES_TO_RETURN; initGroupedResultInfo(&pInfo->groupResInfo, pInfo->aggSup.pResultRowHashTable, TSDB_ORDER_ASC); blockDataEnsureCapacity(pBInfo->pRes, pOperator->resultInfo.capacity); while (1) { doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); doFilter(pBInfo->pRes, pOperator->exprSupp.pFilterInfo, NULL); bool hasRemain = hasRemainResults(&pInfo->groupResInfo); if (!hasRemain) { setOperatorCompleted(pOperator); break; } if (pBInfo->pRes->info.rows > 0) { break; } } pOperator->resultInfo.totalRows += pBInfo->pRes->info.rows; return (pBInfo->pRes->info.rows == 0) ? NULL : pBInfo->pRes; } // todo make this as an non-blocking operator SOperatorInfo* createStatewindowOperatorInfo(SOperatorInfo* downstream, SStateWinodwPhysiNode* pStateNode, SExecTaskInfo* pTaskInfo) { SStateWindowOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SStateWindowOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } int32_t tsSlotId = ((SColumnNode*)pStateNode->window.pTspk)->slotId; SColumnNode* pColNode = (SColumnNode*)((STargetNode*)pStateNode->pStateKey)->pExpr; if (pStateNode->window.pExprs != NULL) { int32_t numOfScalarExpr = 0; SExprInfo* pScalarExprInfo = createExprInfo(pStateNode->window.pExprs, NULL, &numOfScalarExpr); int32_t code = initExprSupp(&pInfo->scalarSup, pScalarExprInfo, numOfScalarExpr); if (code != TSDB_CODE_SUCCESS) { goto _error; } } pInfo->stateCol = extractColumnFromColumnNode(pColNode); pInfo->stateKey.type = pInfo->stateCol.type; pInfo->stateKey.bytes = pInfo->stateCol.bytes; pInfo->stateKey.pData = taosMemoryCalloc(1, pInfo->stateCol.bytes); if (pInfo->stateKey.pData == NULL) { goto _error; } int32_t code = filterInitFromNode((SNode*)pStateNode->window.node.pConditions, &pOperator->exprSupp.pFilterInfo, 0); if (code != TSDB_CODE_SUCCESS) { goto _error; } size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; int32_t num = 0; SExprInfo* pExprInfo = createExprInfo(pStateNode->window.pFuncs, NULL, &num); initResultSizeInfo(&pOperator->resultInfo, 4096); code = initAggSup(&pOperator->exprSupp, &pInfo->aggSup, pExprInfo, num, keyBufSize, pTaskInfo->id.str, pTaskInfo->streamInfo.pState); if (code != TSDB_CODE_SUCCESS) { goto _error; } SSDataBlock* pResBlock = createDataBlockFromDescNode(pStateNode->window.node.pOutputDataBlockDesc); initBasicInfo(&pInfo->binfo, pResBlock); initResultRowInfo(&pInfo->binfo.resultRowInfo); pInfo->twAggSup = (STimeWindowAggSupp){.waterMark = pStateNode->window.watermark, .calTrigger = pStateNode->window.triggerType}; initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); pInfo->tsSlotId = tsSlotId; setOperatorInfo(pOperator, "StateWindowOperator", QUERY_NODE_PHYSICAL_PLAN_MERGE_STATE, true, OP_NOT_OPENED, pInfo, pTaskInfo); pOperator->fpSet = createOperatorFpSet(openStateWindowAggOptr, doStateWindowAgg, NULL, destroyStateWindowOperatorInfo, optrDefaultBufFn, NULL); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: if (pInfo != NULL) { destroyStateWindowOperatorInfo(pInfo); } taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } void destroySWindowOperatorInfo(void* param) { SSessionAggOperatorInfo* pInfo = (SSessionAggOperatorInfo*)param; if (pInfo == NULL) { return; } cleanupBasicInfo(&pInfo->binfo); colDataDestroy(&pInfo->twAggSup.timeWindowData); cleanupAggSup(&pInfo->aggSup); cleanupGroupResInfo(&pInfo->groupResInfo); taosMemoryFreeClear(param); } SOperatorInfo* createSessionAggOperatorInfo(SOperatorInfo* downstream, SSessionWinodwPhysiNode* pSessionNode, SExecTaskInfo* pTaskInfo) { SSessionAggOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SSessionAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(&pOperator->resultInfo, 4096); int32_t numOfCols = 0; SExprInfo* pExprInfo = createExprInfo(pSessionNode->window.pFuncs, NULL, &numOfCols); SSDataBlock* pResBlock = createDataBlockFromDescNode(pSessionNode->window.node.pOutputDataBlockDesc); initBasicInfo(&pInfo->binfo, pResBlock); int32_t code = initAggSup(&pOperator->exprSupp, &pInfo->aggSup, pExprInfo, numOfCols, keyBufSize, pTaskInfo->id.str, pTaskInfo->streamInfo.pState); if (code != TSDB_CODE_SUCCESS) { goto _error; } pInfo->twAggSup.waterMark = pSessionNode->window.watermark; pInfo->twAggSup.calTrigger = pSessionNode->window.triggerType; pInfo->gap = pSessionNode->gap; initResultRowInfo(&pInfo->binfo.resultRowInfo); initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); pInfo->tsSlotId = ((SColumnNode*)pSessionNode->window.pTspk)->slotId; pInfo->binfo.pRes = pResBlock; pInfo->winSup.prevTs = INT64_MIN; pInfo->reptScan = false; code = filterInitFromNode((SNode*)pSessionNode->window.node.pConditions, &pOperator->exprSupp.pFilterInfo, 0); if (code != TSDB_CODE_SUCCESS) { goto _error; } setOperatorInfo(pOperator, "SessionWindowAggOperator", QUERY_NODE_PHYSICAL_PLAN_MERGE_SESSION, true, OP_NOT_OPENED, pInfo, pTaskInfo); pOperator->fpSet = createOperatorFpSet(optrDummyOpenFn, doSessionWindowAgg, NULL, destroySWindowOperatorInfo, optrDefaultBufFn, NULL); pOperator->pTaskInfo = pTaskInfo; code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroySWindowOperatorInfo(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } void compactFunctions(SqlFunctionCtx* pDestCtx, SqlFunctionCtx* pSourceCtx, int32_t numOfOutput, SExecTaskInfo* pTaskInfo, SColumnInfoData* pTimeWindowData) { for (int32_t k = 0; k < numOfOutput; ++k) { if (fmIsWindowPseudoColumnFunc(pDestCtx[k].functionId)) { if (!pTimeWindowData) { continue; } SResultRowEntryInfo* pEntryInfo = GET_RES_INFO(&pDestCtx[k]); char* p = GET_ROWCELL_INTERBUF(pEntryInfo); SColumnInfoData idata = {0}; idata.info.type = TSDB_DATA_TYPE_BIGINT; idata.info.bytes = tDataTypes[TSDB_DATA_TYPE_BIGINT].bytes; idata.pData = p; SScalarParam out = {.columnData = &idata}; SScalarParam tw = {.numOfRows = 5, .columnData = pTimeWindowData}; pDestCtx[k].sfp.process(&tw, 1, &out); pEntryInfo->numOfRes = 1; } else if (functionNeedToExecute(&pDestCtx[k]) && pDestCtx[k].fpSet.combine != NULL) { int32_t code = pDestCtx[k].fpSet.combine(&pDestCtx[k], &pSourceCtx[k]); if (code != TSDB_CODE_SUCCESS) { qError("%s apply combine functions error, code: %s", GET_TASKID(pTaskInfo), tstrerror(code)); } } else if (pDestCtx[k].fpSet.combine == NULL) { char* funName = fmGetFuncName(pDestCtx[k].functionId); qError("%s error, combine funcion for %s is not implemented", GET_TASKID(pTaskInfo), funName); taosMemoryFreeClear(funName); } } } bool hasIntervalWindow(SStreamState* pState, SWinKey* pKey) { return TSDB_CODE_SUCCESS == streamStateGet(pState, pKey, NULL, 0); } static void rebuildIntervalWindow(SOperatorInfo* pOperator, SArray* pWinArray, SSHashObj* pUpdatedMap) { SStreamIntervalOperatorInfo* pInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; int32_t size = taosArrayGetSize(pWinArray); int32_t numOfOutput = pOperator->exprSupp.numOfExprs; SExprSupp* pSup = &pOperator->exprSupp; if (!pInfo->pChildren) { return; } for (int32_t i = 0; i < size; i++) { SWinKey* pWinRes = taosArrayGet(pWinArray, i); SResultRow* pCurResult = NULL; STimeWindow parentWin = getFinalTimeWindow(pWinRes->ts, &pInfo->interval); if (isDeletedStreamWindow(&parentWin, pWinRes->groupId, pInfo->pState, &pInfo->twAggSup)) { continue; } int32_t numOfChildren = taosArrayGetSize(pInfo->pChildren); int32_t num = 0; for (int32_t j = 0; j < numOfChildren; j++) { SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, j); SStreamIntervalOperatorInfo* pChInfo = pChildOp->info; SExprSupp* pChildSup = &pChildOp->exprSupp; if (!hasIntervalWindow(pChInfo->pState, pWinRes)) { continue; } if (num == 0) { int32_t code = setOutputBuf(pInfo->pState, &parentWin, &pCurResult, pWinRes->groupId, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup); if (code != TSDB_CODE_SUCCESS || pCurResult == NULL) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } } num++; SResultRow* pChResult = NULL; setOutputBuf(pChInfo->pState, &parentWin, &pChResult, pWinRes->groupId, pChildSup->pCtx, pChildSup->numOfExprs, pChildSup->rowEntryInfoOffset, &pChInfo->aggSup); updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &parentWin, true); compactFunctions(pSup->pCtx, pChildSup->pCtx, numOfOutput, pTaskInfo, &pInfo->twAggSup.timeWindowData); releaseOutputBuf(pChInfo->pState, pWinRes, pChResult); } if (num > 0 && pUpdatedMap) { saveWinResultInfo(pCurResult->win.skey, pWinRes->groupId, pUpdatedMap); saveOutputBuf(pInfo->pState, pWinRes, pCurResult, pInfo->aggSup.resultRowSize); releaseOutputBuf(pInfo->pState, pWinRes, pCurResult); } } } bool isDeletedStreamWindow(STimeWindow* pWin, uint64_t groupId, SStreamState* pState, STimeWindowAggSupp* pTwSup) { if (pWin->ekey < pTwSup->maxTs - pTwSup->deleteMark) { SWinKey key = {.ts = pWin->skey, .groupId = groupId}; if (streamStateGet(pState, &key, NULL, 0) == TSDB_CODE_SUCCESS) { return false; } return true; } return false; } int32_t getNexWindowPos(SInterval* pInterval, SDataBlockInfo* pBlockInfo, TSKEY* tsCols, int32_t startPos, TSKEY eKey, STimeWindow* pNextWin) { int32_t forwardRows = getNumOfRowsInTimeWindow(pBlockInfo, tsCols, startPos, eKey, binarySearchForKey, NULL, TSDB_ORDER_ASC); int32_t prevEndPos = forwardRows - 1 + startPos; return getNextQualifiedWindow(pInterval, pNextWin, pBlockInfo, tsCols, prevEndPos, TSDB_ORDER_ASC); } void addPullWindow(SHashObj* pMap, SWinKey* pWinRes, int32_t size) { SArray* childIds = taosArrayInit(8, sizeof(int32_t)); for (int32_t i = 0; i < size; i++) { taosArrayPush(childIds, &i); } taosHashPut(pMap, pWinRes, sizeof(SWinKey), &childIds, sizeof(void*)); } static int32_t getChildIndex(SSDataBlock* pBlock) { return pBlock->info.childId; } static void clearStreamIntervalOperator(SStreamIntervalOperatorInfo* pInfo) { tSimpleHashClear(pInfo->aggSup.pResultRowHashTable); clearDiskbasedBuf(pInfo->aggSup.pResultBuf); initResultRowInfo(&pInfo->binfo.resultRowInfo); pInfo->aggSup.currentPageId = -1; streamStateClear(pInfo->pState); } static void clearSpecialDataBlock(SSDataBlock* pBlock) { if (pBlock->info.rows <= 0) { return; } blockDataCleanup(pBlock); } static void doBuildPullDataBlock(SArray* array, int32_t* pIndex, SSDataBlock* pBlock) { clearSpecialDataBlock(pBlock); int32_t size = taosArrayGetSize(array); if (size - (*pIndex) == 0) { return; } blockDataEnsureCapacity(pBlock, size - (*pIndex)); SColumnInfoData* pStartTs = (SColumnInfoData*)taosArrayGet(pBlock->pDataBlock, START_TS_COLUMN_INDEX); SColumnInfoData* pEndTs = (SColumnInfoData*)taosArrayGet(pBlock->pDataBlock, END_TS_COLUMN_INDEX); SColumnInfoData* pGroupId = (SColumnInfoData*)taosArrayGet(pBlock->pDataBlock, GROUPID_COLUMN_INDEX); SColumnInfoData* pCalStartTs = (SColumnInfoData*)taosArrayGet(pBlock->pDataBlock, CALCULATE_START_TS_COLUMN_INDEX); SColumnInfoData* pCalEndTs = (SColumnInfoData*)taosArrayGet(pBlock->pDataBlock, CALCULATE_END_TS_COLUMN_INDEX); for (; (*pIndex) < size; (*pIndex)++) { SPullWindowInfo* pWin = taosArrayGet(array, (*pIndex)); colDataSetVal(pStartTs, pBlock->info.rows, (const char*)&pWin->window.skey, false); colDataSetVal(pEndTs, pBlock->info.rows, (const char*)&pWin->window.ekey, false); colDataSetVal(pGroupId, pBlock->info.rows, (const char*)&pWin->groupId, false); colDataSetVal(pCalStartTs, pBlock->info.rows, (const char*)&pWin->calWin.skey, false); colDataSetVal(pCalEndTs, pBlock->info.rows, (const char*)&pWin->calWin.ekey, false); pBlock->info.rows++; } if ((*pIndex) == size) { *pIndex = 0; taosArrayClear(array); } blockDataUpdateTsWindow(pBlock, 0); } void processPullOver(SSDataBlock* pBlock, SHashObj* pMap, SInterval* pInterval) { SColumnInfoData* pStartCol = taosArrayGet(pBlock->pDataBlock, START_TS_COLUMN_INDEX); TSKEY* tsData = (TSKEY*)pStartCol->pData; SColumnInfoData* pEndCol = taosArrayGet(pBlock->pDataBlock, END_TS_COLUMN_INDEX); TSKEY* tsEndData = (TSKEY*)pEndCol->pData; SColumnInfoData* pGroupCol = taosArrayGet(pBlock->pDataBlock, GROUPID_COLUMN_INDEX); uint64_t* groupIdData = (uint64_t*)pGroupCol->pData; int32_t chId = getChildIndex(pBlock); for (int32_t i = 0; i < pBlock->info.rows; i++) { TSKEY winTs = tsData[i]; while (winTs < tsEndData[i]) { SWinKey winRes = {.ts = winTs, .groupId = groupIdData[i]}; void* chIds = taosHashGet(pMap, &winRes, sizeof(SWinKey)); if (chIds) { SArray* chArray = *(SArray**)chIds; int32_t index = taosArraySearchIdx(chArray, &chId, compareInt32Val, TD_EQ); if (index != -1) { qDebug("===stream===window %" PRId64 " delete child id %d", winRes.ts, chId); taosArrayRemove(chArray, index); if (taosArrayGetSize(chArray) == 0) { // pull data is over taosArrayDestroy(chArray); taosHashRemove(pMap, &winRes, sizeof(SWinKey)); } } } winTs = taosTimeAdd(winTs, pInterval->sliding, pInterval->slidingUnit, pInterval->precision); } } } static void addRetriveWindow(SArray* wins, SStreamIntervalOperatorInfo* pInfo) { int32_t size = taosArrayGetSize(wins); for (int32_t i = 0; i < size; i++) { SWinKey* winKey = taosArrayGet(wins, i); STimeWindow nextWin = getFinalTimeWindow(winKey->ts, &pInfo->interval); if (needDeleteWindowBuf(&nextWin, &pInfo->twAggSup) && !pInfo->ignoreExpiredData) { void* chIds = taosHashGet(pInfo->pPullDataMap, winKey, sizeof(SWinKey)); if (!chIds) { SPullWindowInfo pull = { .window = nextWin, .groupId = winKey->groupId, .calWin.skey = nextWin.skey, .calWin.ekey = nextWin.skey}; // add pull data request if (savePullWindow(&pull, pInfo->pPullWins) == TSDB_CODE_SUCCESS) { int32_t size1 = taosArrayGetSize(pInfo->pChildren); addPullWindow(pInfo->pPullDataMap, winKey, size1); qDebug("===stream===prepare retrive for delete %" PRId64 ", size:%d", winKey->ts, size1); } } } } } static void clearFunctionContext(SExprSupp* pSup) { for (int32_t i = 0; i < pSup->numOfExprs; i++) { pSup->pCtx[i].saveHandle.currentPage = -1; } } void doBuildStreamIntervalResult(SOperatorInfo* pOperator, SStreamState* pState, SSDataBlock* pBlock, SGroupResInfo* pGroupResInfo) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; // set output datablock version pBlock->info.version = pTaskInfo->version; blockDataCleanup(pBlock); if (!hasRemainResults(pGroupResInfo)) { return; } // clear the existed group id pBlock->info.id.groupId = 0; buildDataBlockFromGroupRes(pOperator, pState, pBlock, &pOperator->exprSupp, pGroupResInfo); } static int32_t getNextQualifiedFinalWindow(SInterval* pInterval, STimeWindow* pNext, SDataBlockInfo* pDataBlockInfo, TSKEY* primaryKeys, int32_t prevPosition) { int32_t startPos = prevPosition + 1; if (startPos == pDataBlockInfo->rows) { startPos = -1; } else { *pNext = getFinalTimeWindow(primaryKeys[startPos], pInterval); } return startPos; } static void setStreamDataVersion(SExecTaskInfo* pTaskInfo, int64_t version, int64_t ckId) { pTaskInfo->streamInfo.dataVersion = version; pTaskInfo->streamInfo.checkPointId = ckId; } static void doStreamIntervalAggImpl(SOperatorInfo* pOperatorInfo, SSDataBlock* pSDataBlock, uint64_t groupId, SSHashObj* pUpdatedMap) { SStreamIntervalOperatorInfo* pInfo = (SStreamIntervalOperatorInfo*)pOperatorInfo->info; pInfo->dataVersion = TMAX(pInfo->dataVersion, pSDataBlock->info.version); SResultRowInfo* pResultRowInfo = &(pInfo->binfo.resultRowInfo); SExecTaskInfo* pTaskInfo = pOperatorInfo->pTaskInfo; SExprSupp* pSup = &pOperatorInfo->exprSupp; int32_t numOfOutput = pSup->numOfExprs; int32_t step = 1; TSKEY* tsCols = NULL; SResultRow* pResult = NULL; int32_t forwardRows = 0; SColumnInfoData* pColDataInfo = taosArrayGet(pSDataBlock->pDataBlock, pInfo->primaryTsIndex); tsCols = (int64_t*)pColDataInfo->pData; int32_t startPos = 0; TSKEY ts = getStartTsKey(&pSDataBlock->info.window, tsCols); STimeWindow nextWin = {0}; if (IS_FINAL_OP(pInfo)) { nextWin = getFinalTimeWindow(ts, &pInfo->interval); } else { nextWin = getActiveTimeWindow(pInfo->aggSup.pResultBuf, pResultRowInfo, ts, &pInfo->interval, TSDB_ORDER_ASC); } while (1) { bool isClosed = isCloseWindow(&nextWin, &pInfo->twAggSup); if ((pInfo->ignoreExpiredData && isClosed) || !inSlidingWindow(&pInfo->interval, &nextWin, &pSDataBlock->info)) { startPos = getNexWindowPos(&pInfo->interval, &pSDataBlock->info, tsCols, startPos, nextWin.ekey, &nextWin); if (startPos < 0) { break; } continue; } if (IS_FINAL_OP(pInfo) && isClosed && pInfo->pChildren) { bool ignore = true; SWinKey winRes = { .ts = nextWin.skey, .groupId = groupId, }; void* chIds = taosHashGet(pInfo->pPullDataMap, &winRes, sizeof(SWinKey)); if (isDeletedStreamWindow(&nextWin, groupId, pInfo->pState, &pInfo->twAggSup) && !chIds) { SPullWindowInfo pull = { .window = nextWin, .groupId = groupId, .calWin.skey = nextWin.skey, .calWin.ekey = nextWin.skey}; // add pull data request if (savePullWindow(&pull, pInfo->pPullWins) == TSDB_CODE_SUCCESS) { int32_t size = taosArrayGetSize(pInfo->pChildren); addPullWindow(pInfo->pPullDataMap, &winRes, size); qDebug("===stream===prepare retrive %" PRId64 ", size:%d", winRes.ts, size); } } else { int32_t index = -1; SArray* chArray = NULL; int32_t chId = 0; if (chIds) { chArray = *(void**)chIds; chId = getChildIndex(pSDataBlock); index = taosArraySearchIdx(chArray, &chId, compareInt32Val, TD_EQ); } if (index == -1 || pSDataBlock->info.type == STREAM_PULL_DATA) { ignore = false; } } if (ignore) { startPos = getNexWindowPos(&pInfo->interval, &pSDataBlock->info, tsCols, startPos, nextWin.ekey, &nextWin); if (startPos < 0) { break; } continue; } } int32_t code = setOutputBuf(pInfo->pState, &nextWin, &pResult, groupId, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset, &pInfo->aggSup); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } if (IS_FINAL_OP(pInfo)) { forwardRows = 1; } else { forwardRows = getNumOfRowsInTimeWindow(&pSDataBlock->info, tsCols, startPos, nextWin.ekey, binarySearchForKey, NULL, TSDB_ORDER_ASC); } if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_AT_ONCE && pUpdatedMap) { saveWinResultInfo(pResult->win.skey, groupId, pUpdatedMap); } if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_WINDOW_CLOSE) { SWinKey key = { .ts = pResult->win.skey, .groupId = groupId, }; tSimpleHashPut(pInfo->aggSup.pResultRowHashTable, &key, sizeof(SWinKey), NULL, 0); } updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &nextWin, true); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &pInfo->twAggSup.timeWindowData, startPos, forwardRows, pSDataBlock->info.rows, numOfOutput); SWinKey key = { .ts = nextWin.skey, .groupId = groupId }; saveOutputBuf(pInfo->pState, &key, pResult, pInfo->aggSup.resultRowSize); releaseOutputBuf(pInfo->pState, &key, pResult); if (pInfo->delKey.ts > key.ts) { pInfo->delKey = key; } int32_t prevEndPos = (forwardRows - 1) * step + startPos; if (pSDataBlock->info.window.skey <= 0 || pSDataBlock->info.window.ekey <= 0) { qError("table uid %" PRIu64 " data block timestamp range may not be calculated! minKey %" PRId64 ",maxKey %" PRId64, pSDataBlock->info.id.uid, pSDataBlock->info.window.skey, pSDataBlock->info.window.ekey); blockDataUpdateTsWindow(pSDataBlock, 0); // timestamp of the data is incorrect if (pSDataBlock->info.window.skey <= 0 || pSDataBlock->info.window.ekey <= 0) { qError("table uid %" PRIu64 " data block timestamp is out of range! minKey %" PRId64 ",maxKey %" PRId64, pSDataBlock->info.id.uid, pSDataBlock->info.window.skey, pSDataBlock->info.window.ekey); } } if (IS_FINAL_OP(pInfo)) { startPos = getNextQualifiedFinalWindow(&pInfo->interval, &nextWin, &pSDataBlock->info, tsCols, prevEndPos); } else { startPos = getNextQualifiedWindow(&pInfo->interval, &nextWin, &pSDataBlock->info, tsCols, prevEndPos, TSDB_ORDER_ASC); } if (startPos < 0) { break; } } } static SSDataBlock* doStreamFinalIntervalAgg(SOperatorInfo* pOperator) { SStreamIntervalOperatorInfo* pInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SOperatorInfo* downstream = pOperator->pDownstream[0]; SExprSupp* pSup = &pOperator->exprSupp; qDebug("interval status %d %s", pOperator->status, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi"); if (pOperator->status == OP_EXEC_DONE) { return NULL; } else if (pOperator->status == OP_RES_TO_RETURN) { doBuildPullDataBlock(pInfo->pPullWins, &pInfo->pullIndex, pInfo->pPullDataRes); if (pInfo->pPullDataRes->info.rows != 0) { // process the rest of the data printDataBlock(pInfo->pPullDataRes, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi"); return pInfo->pPullDataRes; } doBuildDeleteResult(pInfo, pInfo->pDelWins, &pInfo->delIndex, pInfo->pDelRes); if (pInfo->pDelRes->info.rows != 0) { // process the rest of the data printDataBlock(pInfo->pDelRes, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi"); return pInfo->pDelRes; } doBuildStreamIntervalResult(pOperator, pInfo->pState, pInfo->binfo.pRes, &pInfo->groupResInfo); if (pInfo->binfo.pRes->info.rows != 0) { printDataBlock(pInfo->binfo.pRes, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi"); return pInfo->binfo.pRes; } setOperatorCompleted(pOperator); if (!IS_FINAL_OP(pInfo)) { clearFunctionContext(&pOperator->exprSupp); // semi interval operator clear disk buffer clearStreamIntervalOperator(pInfo); setStreamDataVersion(pTaskInfo, pInfo->dataVersion, pInfo->pState->checkPointId); qDebug("===stream===clear semi operator"); } else { deleteIntervalDiscBuf(pInfo->pState, pInfo->pPullDataMap, pInfo->twAggSup.maxTs - pInfo->twAggSup.deleteMark, &pInfo->interval, &pInfo->delKey); streamStateCommit(pTaskInfo->streamInfo.pState); } return NULL; } else { if (!IS_FINAL_OP(pInfo)) { doBuildDeleteResult(pInfo, pInfo->pDelWins, &pInfo->delIndex, pInfo->pDelRes); if (pInfo->pDelRes->info.rows != 0) { // process the rest of the data printDataBlock(pInfo->pDelRes, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi"); return pInfo->pDelRes; } doBuildStreamIntervalResult(pOperator, pInfo->pState, pInfo->binfo.pRes, &pInfo->groupResInfo); if (pInfo->binfo.pRes->info.rows != 0) { printDataBlock(pInfo->binfo.pRes, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi"); return pInfo->binfo.pRes; } } } if (!pInfo->pUpdated) { pInfo->pUpdated = taosArrayInit(4, sizeof(SWinKey)); } if (!pInfo->pUpdatedMap) { _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pUpdatedMap = tSimpleHashInit(1024, hashFn); } while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { pOperator->status = OP_RES_TO_RETURN; qDebug("===stream===return data:%s. recv datablock num:%" PRIu64, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi", pInfo->numOfDatapack); pInfo->numOfDatapack = 0; break; } pInfo->numOfDatapack++; printDataBlock(pBlock, IS_FINAL_OP(pInfo) ? "interval final recv" : "interval semi recv"); if (pBlock->info.type == STREAM_NORMAL || pBlock->info.type == STREAM_PULL_DATA) { pInfo->binfo.pRes->info.type = pBlock->info.type; } else if (pBlock->info.type == STREAM_DELETE_DATA || pBlock->info.type == STREAM_DELETE_RESULT || pBlock->info.type == STREAM_CLEAR) { SArray* delWins = taosArrayInit(8, sizeof(SWinKey)); doDeleteWindows(pOperator, &pInfo->interval, pBlock, delWins, pInfo->pUpdatedMap); if (IS_FINAL_OP(pInfo)) { int32_t childIndex = getChildIndex(pBlock); SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, childIndex); SStreamIntervalOperatorInfo* pChildInfo = pChildOp->info; SExprSupp* pChildSup = &pChildOp->exprSupp; doDeleteWindows(pChildOp, &pChildInfo->interval, pBlock, NULL, NULL); rebuildIntervalWindow(pOperator, delWins, pInfo->pUpdatedMap); addRetriveWindow(delWins, pInfo); taosArrayAddAll(pInfo->pDelWins, delWins); taosArrayDestroy(delWins); continue; } removeResults(delWins, pInfo->pUpdatedMap); taosArrayAddAll(pInfo->pDelWins, delWins); taosArrayDestroy(delWins); break; } else if (pBlock->info.type == STREAM_GET_ALL && IS_FINAL_OP(pInfo)) { getAllIntervalWindow(pInfo->aggSup.pResultRowHashTable, pInfo->pUpdatedMap); continue; } else if (pBlock->info.type == STREAM_RETRIEVE && !IS_FINAL_OP(pInfo)) { doDeleteWindows(pOperator, &pInfo->interval, pBlock, NULL, pInfo->pUpdatedMap); if (taosArrayGetSize(pInfo->pUpdated) > 0) { break; } continue; } else if (pBlock->info.type == STREAM_PULL_OVER && IS_FINAL_OP(pInfo)) { processPullOver(pBlock, pInfo->pPullDataMap, &pInfo->interval); continue; } else if (pBlock->info.type == STREAM_CREATE_CHILD_TABLE) { return pBlock; } else { ASSERTS(pBlock->info.type == STREAM_INVALID, "invalid SSDataBlock type"); } if (pInfo->scalarSupp.pExprInfo != NULL) { SExprSupp* pExprSup = &pInfo->scalarSupp; projectApplyFunctions(pExprSup->pExprInfo, pBlock, pBlock, pExprSup->pCtx, pExprSup->numOfExprs, NULL); } setInputDataBlock(pSup, pBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); doStreamIntervalAggImpl(pOperator, pBlock, pBlock->info.id.groupId, pInfo->pUpdatedMap); if (IS_FINAL_OP(pInfo)) { int32_t chIndex = getChildIndex(pBlock); int32_t size = taosArrayGetSize(pInfo->pChildren); // if chIndex + 1 - size > 0, add new child for (int32_t i = 0; i < chIndex + 1 - size; i++) { SOperatorInfo* pChildOp = createStreamFinalIntervalOperatorInfo(NULL, pInfo->pPhyNode, pOperator->pTaskInfo, 0); if (!pChildOp) { T_LONG_JMP(pOperator->pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } SStreamIntervalOperatorInfo* pTmpInfo = pChildOp->info; pTmpInfo->twAggSup.calTrigger = STREAM_TRIGGER_AT_ONCE; taosArrayPush(pInfo->pChildren, &pChildOp); qDebug("===stream===add child, id:%d", chIndex); } SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, chIndex); SStreamIntervalOperatorInfo* pChInfo = pChildOp->info; setInputDataBlock(&pChildOp->exprSupp, pBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); doStreamIntervalAggImpl(pChildOp, pBlock, pBlock->info.id.groupId, NULL); } pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.window.ekey); pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.watermark); pInfo->twAggSup.minTs = TMIN(pInfo->twAggSup.minTs, pBlock->info.window.skey); } removeDeleteResults(pInfo->pUpdatedMap, pInfo->pDelWins); if (IS_FINAL_OP(pInfo)) { closeStreamIntervalWindow(pInfo->aggSup.pResultRowHashTable, &pInfo->twAggSup, &pInfo->interval, pInfo->pPullDataMap, pInfo->pUpdatedMap, pInfo->pDelWins, pOperator); closeChildIntervalWindow(pOperator, pInfo->pChildren, pInfo->twAggSup.maxTs); } pInfo->binfo.pRes->info.watermark = pInfo->twAggSup.maxTs; void* pIte = NULL; int32_t iter = 0; while ((pIte = tSimpleHashIterate(pInfo->pUpdatedMap, pIte, &iter)) != NULL) { taosArrayPush(pInfo->pUpdated, pIte); } tSimpleHashCleanup(pInfo->pUpdatedMap); pInfo->pUpdatedMap = NULL; taosArraySort(pInfo->pUpdated, winKeyCmprImpl); initMultiResInfoFromArrayList(&pInfo->groupResInfo, pInfo->pUpdated); pInfo->pUpdated = NULL; blockDataEnsureCapacity(pInfo->binfo.pRes, pOperator->resultInfo.capacity); doBuildPullDataBlock(pInfo->pPullWins, &pInfo->pullIndex, pInfo->pPullDataRes); if (pInfo->pPullDataRes->info.rows != 0) { // process the rest of the data printDataBlock(pInfo->pPullDataRes, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi"); return pInfo->pPullDataRes; } doBuildDeleteResult(pInfo, pInfo->pDelWins, &pInfo->delIndex, pInfo->pDelRes); if (pInfo->pDelRes->info.rows != 0) { // process the rest of the data printDataBlock(pInfo->pDelRes, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi"); return pInfo->pDelRes; } doBuildStreamIntervalResult(pOperator, pInfo->pState, pInfo->binfo.pRes, &pInfo->groupResInfo); if (pInfo->binfo.pRes->info.rows != 0) { printDataBlock(pInfo->binfo.pRes, IS_FINAL_OP(pInfo) ? "interval final" : "interval semi"); return pInfo->binfo.pRes; } return NULL; } int64_t getDeleteMark(SIntervalPhysiNode* pIntervalPhyNode) { if (pIntervalPhyNode->window.deleteMark <= 0) { return DEAULT_DELETE_MARK; } int64_t deleteMark = TMAX(pIntervalPhyNode->window.deleteMark, pIntervalPhyNode->window.watermark); deleteMark = TMAX(deleteMark, pIntervalPhyNode->interval); return deleteMark; } SOperatorInfo* createStreamFinalIntervalOperatorInfo(SOperatorInfo* downstream, SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo, int32_t numOfChild) { SIntervalPhysiNode* pIntervalPhyNode = (SIntervalPhysiNode*)pPhyNode; SStreamIntervalOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SStreamIntervalOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } pOperator->pTaskInfo = pTaskInfo; pInfo->interval = (SInterval){.interval = pIntervalPhyNode->interval, .sliding = pIntervalPhyNode->sliding, .intervalUnit = pIntervalPhyNode->intervalUnit, .slidingUnit = pIntervalPhyNode->slidingUnit, .offset = pIntervalPhyNode->offset, .precision = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->node.resType.precision}; pInfo->twAggSup = (STimeWindowAggSupp){ .waterMark = pIntervalPhyNode->window.watermark, .calTrigger = pIntervalPhyNode->window.triggerType, .maxTs = INT64_MIN, .minTs = INT64_MAX, .deleteMark = getDeleteMark(pIntervalPhyNode), .deleteMarkSaved = 0, .calTriggerSaved = 0, }; ASSERTS(pInfo->twAggSup.calTrigger != STREAM_TRIGGER_MAX_DELAY, "trigger type should not be max delay"); pInfo->primaryTsIndex = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->slotId; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(&pOperator->resultInfo, 4096); if (pIntervalPhyNode->window.pExprs != NULL) { int32_t numOfScalar = 0; SExprInfo* pScalarExprInfo = createExprInfo(pIntervalPhyNode->window.pExprs, NULL, &numOfScalar); int32_t code = initExprSupp(&pInfo->scalarSupp, pScalarExprInfo, numOfScalar); if (code != TSDB_CODE_SUCCESS) { goto _error; } } int32_t numOfCols = 0; SExprInfo* pExprInfo = createExprInfo(pIntervalPhyNode->window.pFuncs, NULL, &numOfCols); SSDataBlock* pResBlock = createDataBlockFromDescNode(pPhyNode->pOutputDataBlockDesc); initBasicInfo(&pInfo->binfo, pResBlock); int32_t code = initAggSup(&pOperator->exprSupp, &pInfo->aggSup, pExprInfo, numOfCols, keyBufSize, pTaskInfo->id.str, pTaskInfo->streamInfo.pState); if (code != TSDB_CODE_SUCCESS) { goto _error; } initStreamFunciton(pOperator->exprSupp.pCtx, pOperator->exprSupp.numOfExprs); initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); pInfo->pState = taosMemoryCalloc(1, sizeof(SStreamState)); *(pInfo->pState) = *(pTaskInfo->streamInfo.pState); streamStateSetNumber(pInfo->pState, -1); initResultRowInfo(&pInfo->binfo.resultRowInfo); pInfo->pChildren = NULL; if (numOfChild > 0) { pInfo->pChildren = taosArrayInit(numOfChild, sizeof(void*)); if (!pInfo->pChildren) { goto _error; } for (int32_t i = 0; i < numOfChild; i++) { SOperatorInfo* pChildOp = createStreamFinalIntervalOperatorInfo(NULL, pPhyNode, pTaskInfo, 0); if (pChildOp) { SStreamIntervalOperatorInfo* pChInfo = pChildOp->info; pChInfo->twAggSup.calTrigger = STREAM_TRIGGER_AT_ONCE; taosArrayPush(pInfo->pChildren, &pChildOp); streamStateSetNumber(pChInfo->pState, i); continue; } goto _error; } } pInfo->pPhyNode = (SPhysiNode*)nodesCloneNode((SNode*)pPhyNode); if (pPhyNode->type == QUERY_NODE_PHYSICAL_PLAN_STREAM_FINAL_INTERVAL) { pInfo->isFinal = true; pOperator->name = "StreamFinalIntervalOperator"; } else { // semi interval operator does not catch result pInfo->isFinal = false; pOperator->name = "StreamSemiIntervalOperator"; } if (!IS_FINAL_OP(pInfo) || numOfChild == 0) { pInfo->twAggSup.calTrigger = STREAM_TRIGGER_AT_ONCE; } pInfo->pPullWins = taosArrayInit(8, sizeof(SPullWindowInfo)); pInfo->pullIndex = 0; _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pPullDataMap = taosHashInit(64, hashFn, false, HASH_NO_LOCK); pInfo->pPullDataRes = createSpecialDataBlock(STREAM_RETRIEVE); pInfo->ignoreExpiredData = pIntervalPhyNode->window.igExpired; pInfo->ignoreExpiredDataSaved = false; pInfo->pDelRes = createSpecialDataBlock(STREAM_DELETE_RESULT); pInfo->delIndex = 0; pInfo->pDelWins = taosArrayInit(4, sizeof(SWinKey)); pInfo->delKey.ts = INT64_MAX; pInfo->delKey.groupId = 0; pInfo->numOfDatapack = 0; pInfo->pUpdated = NULL; pInfo->pUpdatedMap = NULL; pInfo->dataVersion = 0; pOperator->operatorType = pPhyNode->type; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->info = pInfo; pOperator->fpSet = createOperatorFpSet(NULL, doStreamFinalIntervalAgg, NULL, destroyStreamFinalIntervalOperatorInfo, optrDefaultBufFn, NULL); if (pPhyNode->type == QUERY_NODE_PHYSICAL_PLAN_STREAM_SEMI_INTERVAL) { initIntervalDownStream(downstream, pPhyNode->type, &pInfo->aggSup, &pInfo->interval, &pInfo->twAggSup); } code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyStreamFinalIntervalOperatorInfo(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } void destroyStreamAggSupporter(SStreamAggSupporter* pSup) { tSimpleHashCleanup(pSup->pResultRows); destroyDiskbasedBuf(pSup->pResultBuf); blockDataDestroy(pSup->pScanBlock); taosMemoryFreeClear(pSup->pState); taosMemoryFreeClear(pSup->pDummyCtx); } void destroyStreamSessionAggOperatorInfo(void* param) { SStreamSessionAggOperatorInfo* pInfo = (SStreamSessionAggOperatorInfo*)param; cleanupBasicInfo(&pInfo->binfo); destroyStreamAggSupporter(&pInfo->streamAggSup); if (pInfo->pChildren != NULL) { int32_t size = taosArrayGetSize(pInfo->pChildren); for (int32_t i = 0; i < size; i++) { SOperatorInfo* pChild = taosArrayGetP(pInfo->pChildren, i); destroyOperatorInfo(pChild); } taosArrayDestroy(pInfo->pChildren); } colDataDestroy(&pInfo->twAggSup.timeWindowData); blockDataDestroy(pInfo->pDelRes); blockDataDestroy(pInfo->pWinBlock); blockDataDestroy(pInfo->pUpdateRes); tSimpleHashCleanup(pInfo->pStDeleted); taosMemoryFreeClear(param); } int32_t initBasicInfoEx(SOptrBasicInfo* pBasicInfo, SExprSupp* pSup, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResultBlock) { initBasicInfo(pBasicInfo, pResultBlock); int32_t code = initExprSupp(pSup, pExprInfo, numOfCols); if (code != TSDB_CODE_SUCCESS) { return code; } initStreamFunciton(pSup->pCtx, pSup->numOfExprs); for (int32_t i = 0; i < numOfCols; ++i) { pSup->pCtx[i].saveHandle.pBuf = NULL; } ASSERT(numOfCols > 0); return TSDB_CODE_SUCCESS; } void initDummyFunction(SqlFunctionCtx* pDummy, SqlFunctionCtx* pCtx, int32_t nums) { for (int i = 0; i < nums; i++) { pDummy[i].functionId = pCtx[i].functionId; pDummy[i].isNotNullFunc = pCtx[i].isNotNullFunc; pDummy[i].isPseudoFunc = pCtx[i].isPseudoFunc; } } void initDownStream(SOperatorInfo* downstream, SStreamAggSupporter* pAggSup, uint16_t type, int32_t tsColIndex, STimeWindowAggSupp* pTwSup) { if (downstream->operatorType == QUERY_NODE_PHYSICAL_PLAN_STREAM_PARTITION) { SStreamPartitionOperatorInfo* pScanInfo = downstream->info; pScanInfo->tsColIndex = tsColIndex; } if (downstream->operatorType != QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN) { initDownStream(downstream->pDownstream[0], pAggSup, type, tsColIndex, pTwSup); return; } SStreamScanInfo* pScanInfo = downstream->info; pScanInfo->windowSup = (SWindowSupporter){.pStreamAggSup = pAggSup, .gap = pAggSup->gap, .parentType = type}; if (!pScanInfo->igCheckUpdate && !pScanInfo->pUpdateInfo) { pScanInfo->pUpdateInfo = updateInfoInit(60000, TSDB_TIME_PRECISION_MILLI, pTwSup->waterMark); } pScanInfo->twAggSup = *pTwSup; } int32_t initStreamAggSupporter(SStreamAggSupporter* pSup, SqlFunctionCtx* pCtx, int32_t numOfOutput, int64_t gap, SStreamState* pState, int32_t keySize, int16_t keyType) { pSup->resultRowSize = keySize + getResultRowSize(pCtx, numOfOutput); pSup->pScanBlock = createSpecialDataBlock(STREAM_CLEAR); pSup->gap = gap; pSup->stateKeySize = keySize; pSup->stateKeyType = keyType; pSup->pDummyCtx = (SqlFunctionCtx*)taosMemoryCalloc(numOfOutput, sizeof(SqlFunctionCtx)); if (pSup->pDummyCtx == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } initDummyFunction(pSup->pDummyCtx, pCtx, numOfOutput); pSup->pState = taosMemoryCalloc(1, sizeof(SStreamState)); *(pSup->pState) = *pState; streamStateSetNumber(pSup->pState, -1); _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pSup->pResultRows = tSimpleHashInit(32, hashFn); int32_t pageSize = 4096; while (pageSize < pSup->resultRowSize * 4) { pageSize <<= 1u; } // at least four pages need to be in buffer int32_t bufSize = 4096 * 256; if (bufSize <= pageSize) { bufSize = pageSize * 4; } if (!osTempSpaceAvailable()) { terrno = TSDB_CODE_NO_AVAIL_DISK; qError("Init stream agg supporter failed since %s", terrstr(terrno)); return terrno; } int32_t code = createDiskbasedBuf(&pSup->pResultBuf, pageSize, bufSize, "function", tsTempDir); for (int32_t i = 0; i < numOfOutput; ++i) { pCtx[i].saveHandle.pBuf = pSup->pResultBuf; } return TSDB_CODE_SUCCESS; } bool isInTimeWindow(STimeWindow* pWin, TSKEY ts, int64_t gap) { if (ts + gap >= pWin->skey && ts - gap <= pWin->ekey) { return true; } return false; } bool isInWindow(SResultWindowInfo* pWinInfo, TSKEY ts, int64_t gap) { return isInTimeWindow(&pWinInfo->sessionWin.win, ts, gap); } void getCurSessionWindow(SStreamAggSupporter* pAggSup, TSKEY startTs, TSKEY endTs, uint64_t groupId, SSessionKey* pKey) { pKey->win.skey = startTs; pKey->win.ekey = endTs; pKey->groupId = groupId; int32_t code = streamStateSessionGetKeyByRange(pAggSup->pState, pKey, pKey); if (code != TSDB_CODE_SUCCESS) { SET_SESSION_WIN_KEY_INVALID(pKey); } } bool isInvalidSessionWin(SResultWindowInfo* pWinInfo) { return pWinInfo->sessionWin.win.skey == 0; } void setSessionOutputBuf(SStreamAggSupporter* pAggSup, TSKEY startTs, TSKEY endTs, uint64_t groupId, SResultWindowInfo* pCurWin) { pCurWin->sessionWin.groupId = groupId; pCurWin->sessionWin.win.skey = startTs; pCurWin->sessionWin.win.ekey = endTs; int32_t size = pAggSup->resultRowSize; int32_t code = streamStateSessionAddIfNotExist(pAggSup->pState, &pCurWin->sessionWin, pAggSup->gap, &pCurWin->pOutputBuf, &size); if (code == TSDB_CODE_SUCCESS) { pCurWin->isOutput = true; } else { pCurWin->sessionWin.win.skey = startTs; pCurWin->sessionWin.win.ekey = endTs; } } int32_t getSessionWinBuf(SStreamAggSupporter* pAggSup, SStreamStateCur* pCur, SResultWindowInfo* pWinInfo) { int32_t size = 0; int32_t code = streamStateSessionGetKVByCur(pCur, &pWinInfo->sessionWin, &pWinInfo->pOutputBuf, &size); if (code != TSDB_CODE_SUCCESS) { return code; } streamStateCurNext(pAggSup->pState, pCur); return TSDB_CODE_SUCCESS; } void saveDeleteInfo(SArray* pWins, SSessionKey key) { // key.win.ekey = key.win.skey; taosArrayPush(pWins, &key); } void saveDeleteRes(SSHashObj* pStDelete, SSessionKey key) { key.win.ekey = key.win.skey; tSimpleHashPut(pStDelete, &key, sizeof(SSessionKey), NULL, 0); } static void removeSessionResult(SSHashObj* pHashMap, SSHashObj* pResMap, SSessionKey key) { key.win.ekey = key.win.skey; tSimpleHashRemove(pHashMap, &key, sizeof(SSessionKey)); tSimpleHashRemove(pResMap, &key, sizeof(SSessionKey)); } static void getSessionHashKey(const SSessionKey* pKey, SSessionKey* pHashKey) { *pHashKey = *pKey; pHashKey->win.ekey = pKey->win.skey; } static void removeSessionResults(SSHashObj* pHashMap, SArray* pWins) { if (tSimpleHashGetSize(pHashMap) == 0) { return; } int32_t size = taosArrayGetSize(pWins); for (int32_t i = 0; i < size; i++) { SSessionKey* pWin = taosArrayGet(pWins, i); if (!pWin) continue; SSessionKey key = {0}; getSessionHashKey(pWin, &key); tSimpleHashRemove(pHashMap, &key, sizeof(SSessionKey)); } } int32_t updateSessionWindowInfo(SResultWindowInfo* pWinInfo, TSKEY* pStartTs, TSKEY* pEndTs, uint64_t groupId, int32_t rows, int32_t start, int64_t gap, SSHashObj* pResultRows, SSHashObj* pStUpdated, SSHashObj* pStDeleted) { for (int32_t i = start; i < rows; ++i) { if (!isInWindow(pWinInfo, pStartTs[i], gap) && (!pEndTs || !isInWindow(pWinInfo, pEndTs[i], gap))) { return i - start; } if (pWinInfo->sessionWin.win.skey > pStartTs[i]) { if (pStDeleted && pWinInfo->isOutput) { saveDeleteRes(pStDeleted, pWinInfo->sessionWin); } removeSessionResult(pStUpdated, pResultRows, pWinInfo->sessionWin); pWinInfo->sessionWin.win.skey = pStartTs[i]; } pWinInfo->sessionWin.win.ekey = TMAX(pWinInfo->sessionWin.win.ekey, pStartTs[i]); if (pEndTs) { pWinInfo->sessionWin.win.ekey = TMAX(pWinInfo->sessionWin.win.ekey, pEndTs[i]); } } return rows - start; } static int32_t initSessionOutputBuf(SResultWindowInfo* pWinInfo, SResultRow** pResult, SqlFunctionCtx* pCtx, int32_t numOfOutput, int32_t* rowEntryInfoOffset) { ASSERT(pWinInfo->sessionWin.win.skey <= pWinInfo->sessionWin.win.ekey); *pResult = (SResultRow*)pWinInfo->pOutputBuf; // set time window for current result (*pResult)->win = pWinInfo->sessionWin.win; setResultRowInitCtx(*pResult, pCtx, numOfOutput, rowEntryInfoOffset); return TSDB_CODE_SUCCESS; } static int32_t doOneWindowAggImpl(SColumnInfoData* pTimeWindowData, SResultWindowInfo* pCurWin, SResultRow** pResult, int32_t startIndex, int32_t winRows, int32_t rows, int32_t numOutput, SOperatorInfo* pOperator) { SExprSupp* pSup = &pOperator->exprSupp; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; int32_t code = initSessionOutputBuf(pCurWin, pResult, pSup->pCtx, numOutput, pSup->rowEntryInfoOffset); if (code != TSDB_CODE_SUCCESS || (*pResult) == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } updateTimeWindowInfo(pTimeWindowData, &pCurWin->sessionWin.win, false); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, pTimeWindowData, startIndex, winRows, rows, numOutput); return TSDB_CODE_SUCCESS; } static bool doDeleteSessionWindow(SStreamAggSupporter* pAggSup, SSessionKey* pKey) { streamStateSessionDel(pAggSup->pState, pKey); SSessionKey hashKey = {0}; getSessionHashKey(pKey, &hashKey); tSimpleHashRemove(pAggSup->pResultRows, &hashKey, sizeof(SSessionKey)); return true; } static int32_t setSessionWinOutputInfo(SSHashObj* pStUpdated, SResultWindowInfo* pWinInfo) { void* pVal = tSimpleHashGet(pStUpdated, &pWinInfo->sessionWin, sizeof(SSessionKey)); if (pVal) { SResultWindowInfo* pWin = pVal; pWinInfo->isOutput = pWin->isOutput; } return TSDB_CODE_SUCCESS; } SStreamStateCur* getNextSessionWinInfo(SStreamAggSupporter* pAggSup, SSHashObj* pStUpdated, SResultWindowInfo* pCurWin, SResultWindowInfo* pNextWin) { SStreamStateCur* pCur = streamStateSessionSeekKeyNext(pAggSup->pState, &pCurWin->sessionWin); pNextWin->isOutput = true; setSessionWinOutputInfo(pStUpdated, pNextWin); int32_t size = 0; pNextWin->sessionWin = pCurWin->sessionWin; int32_t code = streamStateSessionGetKVByCur(pCur, &pNextWin->sessionWin, &pNextWin->pOutputBuf, &size); if (code != TSDB_CODE_SUCCESS) { SET_SESSION_WIN_INVALID(*pNextWin); } return pCur; } static void compactSessionWindow(SOperatorInfo* pOperator, SResultWindowInfo* pCurWin, SSHashObj* pStUpdated, SSHashObj* pStDeleted) { SExprSupp* pSup = &pOperator->exprSupp; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SStreamSessionAggOperatorInfo* pInfo = pOperator->info; SResultRow* pCurResult = NULL; int32_t numOfOutput = pOperator->exprSupp.numOfExprs; SStreamAggSupporter* pAggSup = &pInfo->streamAggSup; initSessionOutputBuf(pCurWin, &pCurResult, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset); // Just look for the window behind StartIndex while (1) { SResultWindowInfo winInfo = {0}; SStreamStateCur* pCur = getNextSessionWinInfo(pAggSup, pStUpdated, pCurWin, &winInfo); if (!IS_VALID_SESSION_WIN(winInfo) || !isInWindow(pCurWin, winInfo.sessionWin.win.skey, pAggSup->gap)) { streamStateFreeCur(pCur); break; } SResultRow* pWinResult = NULL; initSessionOutputBuf(&winInfo, &pWinResult, pAggSup->pDummyCtx, numOfOutput, pSup->rowEntryInfoOffset); pCurWin->sessionWin.win.ekey = TMAX(pCurWin->sessionWin.win.ekey, winInfo.sessionWin.win.ekey); updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pCurWin->sessionWin.win, true); compactFunctions(pSup->pCtx, pAggSup->pDummyCtx, numOfOutput, pTaskInfo, &pInfo->twAggSup.timeWindowData); tSimpleHashRemove(pStUpdated, &winInfo.sessionWin, sizeof(SSessionKey)); if (winInfo.isOutput && pStDeleted) { saveDeleteRes(pStDeleted, winInfo.sessionWin); } removeSessionResult(pStUpdated, pAggSup->pResultRows, winInfo.sessionWin); doDeleteSessionWindow(pAggSup, &winInfo.sessionWin); streamStateFreeCur(pCur); } } int32_t saveSessionOutputBuf(SStreamAggSupporter* pAggSup, SResultWindowInfo* pWinInfo) { saveSessionDiscBuf(pAggSup->pState, &pWinInfo->sessionWin, pWinInfo->pOutputBuf, pAggSup->resultRowSize); return TSDB_CODE_SUCCESS; } static void doStreamSessionAggImpl(SOperatorInfo* pOperator, SSDataBlock* pSDataBlock, SSHashObj* pStUpdated, SSHashObj* pStDeleted, bool hasEndTs) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SStreamSessionAggOperatorInfo* pInfo = pOperator->info; int32_t numOfOutput = pOperator->exprSupp.numOfExprs; uint64_t groupId = pSDataBlock->info.id.groupId; int64_t code = TSDB_CODE_SUCCESS; SResultRow* pResult = NULL; int32_t rows = pSDataBlock->info.rows; int32_t winRows = 0; pInfo->dataVersion = TMAX(pInfo->dataVersion, pSDataBlock->info.version); SColumnInfoData* pStartTsCol = taosArrayGet(pSDataBlock->pDataBlock, pInfo->primaryTsIndex); TSKEY* startTsCols = (int64_t*)pStartTsCol->pData; SColumnInfoData* pEndTsCol = NULL; if (hasEndTs) { pEndTsCol = taosArrayGet(pSDataBlock->pDataBlock, pInfo->endTsIndex); } else { pEndTsCol = taosArrayGet(pSDataBlock->pDataBlock, pInfo->primaryTsIndex); } TSKEY* endTsCols = (int64_t*)pEndTsCol->pData; SStreamAggSupporter* pAggSup = &pInfo->streamAggSup; for (int32_t i = 0; i < rows;) { if (pInfo->ignoreExpiredData && isOverdue(endTsCols[i], &pInfo->twAggSup)) { i++; continue; } SResultWindowInfo winInfo = {0}; setSessionOutputBuf(pAggSup, startTsCols[i], endTsCols[i], groupId, &winInfo); setSessionWinOutputInfo(pStUpdated, &winInfo); winRows = updateSessionWindowInfo(&winInfo, startTsCols, endTsCols, groupId, rows, i, pAggSup->gap, pAggSup->pResultRows, pStUpdated, pStDeleted); // coverity scan error if (!winInfo.pOutputBuf) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } code = doOneWindowAggImpl(&pInfo->twAggSup.timeWindowData, &winInfo, &pResult, i, winRows, rows, numOfOutput, pOperator); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } compactSessionWindow(pOperator, &winInfo, pStUpdated, pStDeleted); saveSessionOutputBuf(pAggSup, &winInfo); if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_AT_ONCE && pStUpdated) { code = saveResult(winInfo, pStUpdated); if (code != TSDB_CODE_SUCCESS) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } } if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_WINDOW_CLOSE) { SSessionKey key = {0}; getSessionHashKey(&winInfo.sessionWin, &key); tSimpleHashPut(pAggSup->pResultRows, &key, sizeof(SSessionKey), &winInfo, sizeof(SResultWindowInfo)); } i += winRows; } } static void doDeleteTimeWindows(SStreamAggSupporter* pAggSup, SSDataBlock* pBlock, SArray* result) { SColumnInfoData* pStartTsCol = taosArrayGet(pBlock->pDataBlock, START_TS_COLUMN_INDEX); TSKEY* startDatas = (TSKEY*)pStartTsCol->pData; SColumnInfoData* pEndTsCol = taosArrayGet(pBlock->pDataBlock, END_TS_COLUMN_INDEX); TSKEY* endDatas = (TSKEY*)pEndTsCol->pData; SColumnInfoData* pGroupCol = taosArrayGet(pBlock->pDataBlock, GROUPID_COLUMN_INDEX); uint64_t* gpDatas = (uint64_t*)pGroupCol->pData; for (int32_t i = 0; i < pBlock->info.rows; i++) { while (1) { SSessionKey curWin = {0}; getCurSessionWindow(pAggSup, startDatas[i], endDatas[i], gpDatas[i], &curWin); if (IS_INVALID_SESSION_WIN_KEY(curWin)) { break; } doDeleteSessionWindow(pAggSup, &curWin); if (result) { saveDeleteInfo(result, curWin); } } } } static inline int32_t sessionKeyCompareAsc(const void* pKey1, const void* pKey2) { SSessionKey* pWin1 = (SSessionKey*)pKey1; SSessionKey* pWin2 = (SSessionKey*)pKey2; if (pWin1->groupId > pWin2->groupId) { return 1; } else if (pWin1->groupId < pWin2->groupId) { return -1; } if (pWin1->win.skey > pWin2->win.skey) { return 1; } else if (pWin1->win.skey < pWin2->win.skey) { return -1; } return 0; } static int32_t copyUpdateResult(SSHashObj* pStUpdated, SArray* pUpdated) { void* pIte = NULL; int32_t iter = 0; while ((pIte = tSimpleHashIterate(pStUpdated, pIte, &iter)) != NULL) { void* key = tSimpleHashGetKey(pIte, NULL); taosArrayPush(pUpdated, key); } taosArraySort(pUpdated, sessionKeyCompareAsc); return TSDB_CODE_SUCCESS; } void doBuildDeleteDataBlock(SOperatorInfo* pOp, SSHashObj* pStDeleted, SSDataBlock* pBlock, void** Ite) { blockDataCleanup(pBlock); int32_t size = tSimpleHashGetSize(pStDeleted); if (size == 0) { return; } blockDataEnsureCapacity(pBlock, size); int32_t iter = 0; while (((*Ite) = tSimpleHashIterate(pStDeleted, *Ite, &iter)) != NULL) { if (pBlock->info.rows + 1 > pBlock->info.capacity) { break; } SSessionKey* res = tSimpleHashGetKey(*Ite, NULL); SColumnInfoData* pStartTsCol = taosArrayGet(pBlock->pDataBlock, START_TS_COLUMN_INDEX); colDataSetVal(pStartTsCol, pBlock->info.rows, (const char*)&res->win.skey, false); SColumnInfoData* pEndTsCol = taosArrayGet(pBlock->pDataBlock, END_TS_COLUMN_INDEX); colDataSetVal(pEndTsCol, pBlock->info.rows, (const char*)&res->win.skey, false); SColumnInfoData* pUidCol = taosArrayGet(pBlock->pDataBlock, UID_COLUMN_INDEX); colDataSetNULL(pUidCol, pBlock->info.rows); SColumnInfoData* pGpCol = taosArrayGet(pBlock->pDataBlock, GROUPID_COLUMN_INDEX); colDataSetVal(pGpCol, pBlock->info.rows, (const char*)&res->groupId, false); SColumnInfoData* pCalStCol = taosArrayGet(pBlock->pDataBlock, CALCULATE_START_TS_COLUMN_INDEX); colDataSetNULL(pCalStCol, pBlock->info.rows); SColumnInfoData* pCalEdCol = taosArrayGet(pBlock->pDataBlock, CALCULATE_END_TS_COLUMN_INDEX); colDataSetNULL(pCalEdCol, pBlock->info.rows); SColumnInfoData* pTableCol = taosArrayGet(pBlock->pDataBlock, TABLE_NAME_COLUMN_INDEX); void* tbname = NULL; streamStateGetParName(pOp->pTaskInfo->streamInfo.pState, res->groupId, &tbname); if (tbname == NULL) { colDataSetNULL(pTableCol, pBlock->info.rows); } else { char parTbName[VARSTR_HEADER_SIZE + TSDB_TABLE_NAME_LEN]; STR_WITH_MAXSIZE_TO_VARSTR(parTbName, tbname, sizeof(parTbName)); colDataSetVal(pTableCol, pBlock->info.rows, (const char*)parTbName, false); tdbFree(tbname); } pBlock->info.rows += 1; } if ((*Ite) == NULL) { tSimpleHashClear(pStDeleted); } } static void rebuildSessionWindow(SOperatorInfo* pOperator, SArray* pWinArray, SSHashObj* pStUpdated) { SExprSupp* pSup = &pOperator->exprSupp; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; int32_t size = taosArrayGetSize(pWinArray); SStreamSessionAggOperatorInfo* pInfo = pOperator->info; SStreamAggSupporter* pAggSup = &pInfo->streamAggSup; int32_t numOfOutput = pSup->numOfExprs; int32_t numOfChildren = taosArrayGetSize(pInfo->pChildren); for (int32_t i = 0; i < size; i++) { SSessionKey* pWinKey = taosArrayGet(pWinArray, i); int32_t num = 0; SResultWindowInfo parentWin = {0}; for (int32_t j = 0; j < numOfChildren; j++) { SOperatorInfo* pChild = taosArrayGetP(pInfo->pChildren, j); SStreamSessionAggOperatorInfo* pChInfo = pChild->info; SStreamAggSupporter* pChAggSup = &pChInfo->streamAggSup; SSessionKey chWinKey = {0}; getSessionHashKey(pWinKey, &chWinKey); SStreamStateCur* pCur = streamStateSessionSeekKeyCurrentNext(pChAggSup->pState, &chWinKey); SResultRow* pResult = NULL; SResultRow* pChResult = NULL; while (1) { SResultWindowInfo childWin = {0}; childWin.sessionWin = *pWinKey; int32_t code = getSessionWinBuf(pChAggSup, pCur, &childWin); if (code == TSDB_CODE_SUCCESS && pWinKey->win.skey <= childWin.sessionWin.win.skey && childWin.sessionWin.win.ekey <= pWinKey->win.ekey) { if (num == 0) { setSessionOutputBuf(pAggSup, pWinKey->win.skey, pWinKey->win.ekey, pWinKey->groupId, &parentWin); code = initSessionOutputBuf(&parentWin, &pResult, pSup->pCtx, numOfOutput, pSup->rowEntryInfoOffset); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { break; } } num++; updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &parentWin.sessionWin.win, true); initSessionOutputBuf(&childWin, &pChResult, pChild->exprSupp.pCtx, numOfOutput, pChild->exprSupp.rowEntryInfoOffset); compactFunctions(pSup->pCtx, pChild->exprSupp.pCtx, numOfOutput, pTaskInfo, &pInfo->twAggSup.timeWindowData); compactSessionWindow(pOperator, &parentWin, pStUpdated, NULL); saveResult(parentWin, pStUpdated); } else { break; } } streamStateFreeCur(pCur); } if (num > 0) { saveSessionOutputBuf(pAggSup, &parentWin); } } } int32_t closeSessionWindow(SSHashObj* pHashMap, STimeWindowAggSupp* pTwSup, SSHashObj* pClosed) { void* pIte = NULL; int32_t iter = 0; while ((pIte = tSimpleHashIterate(pHashMap, pIte, &iter)) != NULL) { SResultWindowInfo* pWinInfo = pIte; if (isCloseWindow(&pWinInfo->sessionWin.win, pTwSup)) { if (pTwSup->calTrigger == STREAM_TRIGGER_WINDOW_CLOSE && pClosed) { int32_t code = saveResult(*pWinInfo, pClosed); if (code != TSDB_CODE_SUCCESS) { return code; } } SSessionKey* pKey = tSimpleHashGetKey(pIte, NULL); tSimpleHashIterateRemove(pHashMap, pKey, sizeof(SSessionKey), &pIte, &iter); } } return TSDB_CODE_SUCCESS; } static void closeChildSessionWindow(SArray* pChildren, TSKEY maxTs) { int32_t size = taosArrayGetSize(pChildren); for (int32_t i = 0; i < size; i++) { SOperatorInfo* pChildOp = taosArrayGetP(pChildren, i); SStreamSessionAggOperatorInfo* pChInfo = pChildOp->info; pChInfo->twAggSup.maxTs = TMAX(pChInfo->twAggSup.maxTs, maxTs); closeSessionWindow(pChInfo->streamAggSup.pResultRows, &pChInfo->twAggSup, NULL); } } int32_t getAllSessionWindow(SSHashObj* pHashMap, SSHashObj* pStUpdated) { void* pIte = NULL; int32_t iter = 0; while ((pIte = tSimpleHashIterate(pHashMap, pIte, &iter)) != NULL) { SResultWindowInfo* pWinInfo = pIte; saveResult(*pWinInfo, pStUpdated); } return TSDB_CODE_SUCCESS; } static void copyDeleteWindowInfo(SArray* pResWins, SSHashObj* pStDeleted) { int32_t size = taosArrayGetSize(pResWins); for (int32_t i = 0; i < size; i++) { SSessionKey* pWinKey = taosArrayGet(pResWins, i); if (!pWinKey) continue; SSessionKey winInfo = {0}; getSessionHashKey(pWinKey, &winInfo); tSimpleHashPut(pStDeleted, &winInfo, sizeof(SSessionKey), NULL, 0); } } // the allocated memory comes from outer function. void initGroupResInfoFromArrayList(SGroupResInfo* pGroupResInfo, SArray* pArrayList) { pGroupResInfo->pRows = pArrayList; pGroupResInfo->index = 0; pGroupResInfo->pBuf = NULL; } void doBuildSessionResult(SOperatorInfo* pOperator, SStreamState* pState, SGroupResInfo* pGroupResInfo, SSDataBlock* pBlock) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; // set output datablock version pBlock->info.version = pTaskInfo->version; blockDataCleanup(pBlock); if (!hasRemainResults(pGroupResInfo)) { cleanupGroupResInfo(pGroupResInfo); return; } // clear the existed group id pBlock->info.id.groupId = 0; buildSessionResultDataBlock(pOperator, pState, pBlock, &pOperator->exprSupp, pGroupResInfo); } static SSDataBlock* doStreamSessionAgg(SOperatorInfo* pOperator) { SExprSupp* pSup = &pOperator->exprSupp; SStreamSessionAggOperatorInfo* pInfo = pOperator->info; SOptrBasicInfo* pBInfo = &pInfo->binfo; SStreamAggSupporter* pAggSup = &pInfo->streamAggSup; if (pOperator->status == OP_EXEC_DONE) { return NULL; } else if (pOperator->status == OP_RES_TO_RETURN) { doBuildDeleteDataBlock(pOperator, pInfo->pStDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { printDataBlock(pInfo->pDelRes, IS_FINAL_OP(pInfo) ? "final session" : "single session"); return pInfo->pDelRes; } doBuildSessionResult(pOperator, pAggSup->pState, &pInfo->groupResInfo, pBInfo->pRes); if (pBInfo->pRes->info.rows > 0) { printDataBlock(pBInfo->pRes, IS_FINAL_OP(pInfo) ? "final session" : "single session"); return pBInfo->pRes; } setOperatorCompleted(pOperator); return NULL; } SOperatorInfo* downstream = pOperator->pDownstream[0]; if (!pInfo->pUpdated) { pInfo->pUpdated = taosArrayInit(16, sizeof(SSessionKey)); } if (!pInfo->pStUpdated) { _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pStUpdated = tSimpleHashInit(64, hashFn); } while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { break; } printDataBlock(pBlock, IS_FINAL_OP(pInfo) ? "final session recv" : "single session recv"); if (pBlock->info.type == STREAM_DELETE_DATA || pBlock->info.type == STREAM_DELETE_RESULT || pBlock->info.type == STREAM_CLEAR) { SArray* pWins = taosArrayInit(16, sizeof(SSessionKey)); // gap must be 0 doDeleteTimeWindows(pAggSup, pBlock, pWins); removeSessionResults(pInfo->pStUpdated, pWins); if (IS_FINAL_OP(pInfo)) { int32_t childIndex = getChildIndex(pBlock); SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, childIndex); SStreamSessionAggOperatorInfo* pChildInfo = pChildOp->info; // gap must be 0 doDeleteTimeWindows(&pChildInfo->streamAggSup, pBlock, NULL); rebuildSessionWindow(pOperator, pWins, pInfo->pStUpdated); } copyDeleteWindowInfo(pWins, pInfo->pStDeleted); taosArrayDestroy(pWins); continue; } else if (pBlock->info.type == STREAM_GET_ALL) { getAllSessionWindow(pAggSup->pResultRows, pInfo->pStUpdated); continue; } else if (pBlock->info.type == STREAM_CREATE_CHILD_TABLE) { return pBlock; } else { ASSERTS(pBlock->info.type == STREAM_NORMAL || pBlock->info.type == STREAM_INVALID, "invalid SSDataBlock type"); } if (pInfo->scalarSupp.pExprInfo != NULL) { SExprSupp* pExprSup = &pInfo->scalarSupp; projectApplyFunctions(pExprSup->pExprInfo, pBlock, pBlock, pExprSup->pCtx, pExprSup->numOfExprs, NULL); } // the pDataBlock are always the same one, no need to call this again setInputDataBlock(pSup, pBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); doStreamSessionAggImpl(pOperator, pBlock, pInfo->pStUpdated, pInfo->pStDeleted, IS_FINAL_OP(pInfo)); if (IS_FINAL_OP(pInfo)) { int32_t chIndex = getChildIndex(pBlock); int32_t size = taosArrayGetSize(pInfo->pChildren); // if chIndex + 1 - size > 0, add new child for (int32_t i = 0; i < chIndex + 1 - size; i++) { SOperatorInfo* pChildOp = createStreamFinalSessionAggOperatorInfo(NULL, pInfo->pPhyNode, pOperator->pTaskInfo, 0); if (!pChildOp) { T_LONG_JMP(pOperator->pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } taosArrayPush(pInfo->pChildren, &pChildOp); } SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, chIndex); setInputDataBlock(&pChildOp->exprSupp, pBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); doStreamSessionAggImpl(pChildOp, pBlock, NULL, NULL, true); } pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.window.ekey); pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.watermark); } // restore the value pOperator->status = OP_RES_TO_RETURN; closeSessionWindow(pAggSup->pResultRows, &pInfo->twAggSup, pInfo->pStUpdated); closeChildSessionWindow(pInfo->pChildren, pInfo->twAggSup.maxTs); copyUpdateResult(pInfo->pStUpdated, pInfo->pUpdated); removeSessionResults(pInfo->pStDeleted, pInfo->pUpdated); tSimpleHashCleanup(pInfo->pStUpdated); pInfo->pStUpdated = NULL; initGroupResInfoFromArrayList(&pInfo->groupResInfo, pInfo->pUpdated); pInfo->pUpdated = NULL; blockDataEnsureCapacity(pInfo->binfo.pRes, pOperator->resultInfo.capacity); #if 0 char* pBuf = streamStateSessionDump(pAggSup->pState); qDebug("===stream===final session%s", pBuf); taosMemoryFree(pBuf); #endif doBuildDeleteDataBlock(pOperator, pInfo->pStDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { printDataBlock(pInfo->pDelRes, IS_FINAL_OP(pInfo) ? "final session" : "single session"); return pInfo->pDelRes; } doBuildSessionResult(pOperator, pAggSup->pState, &pInfo->groupResInfo, pBInfo->pRes); if (pBInfo->pRes->info.rows > 0) { printDataBlock(pBInfo->pRes, IS_FINAL_OP(pInfo) ? "final session" : "single session"); return pBInfo->pRes; } setOperatorCompleted(pOperator); return NULL; } SOperatorInfo* createStreamSessionAggOperatorInfo(SOperatorInfo* downstream, SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo) { SSessionWinodwPhysiNode* pSessionNode = (SSessionWinodwPhysiNode*)pPhyNode; int32_t numOfCols = 0; int32_t code = TSDB_CODE_OUT_OF_MEMORY; SStreamSessionAggOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SStreamSessionAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } pOperator->pTaskInfo = pTaskInfo; initResultSizeInfo(&pOperator->resultInfo, 4096); if (pSessionNode->window.pExprs != NULL) { int32_t numOfScalar = 0; SExprInfo* pScalarExprInfo = createExprInfo(pSessionNode->window.pExprs, NULL, &numOfScalar); code = initExprSupp(&pInfo->scalarSupp, pScalarExprInfo, numOfScalar); if (code != TSDB_CODE_SUCCESS) { goto _error; } } SExprSupp* pSup = &pOperator->exprSupp; SExprInfo* pExprInfo = createExprInfo(pSessionNode->window.pFuncs, NULL, &numOfCols); SSDataBlock* pResBlock = createDataBlockFromDescNode(pPhyNode->pOutputDataBlockDesc); code = initBasicInfoEx(&pInfo->binfo, pSup, pExprInfo, numOfCols, pResBlock); if (code != TSDB_CODE_SUCCESS) { goto _error; } code = initStreamAggSupporter(&pInfo->streamAggSup, pSup->pCtx, numOfCols, pSessionNode->gap, pTaskInfo->streamInfo.pState, 0, 0); if (code != TSDB_CODE_SUCCESS) { goto _error; } pInfo->twAggSup = (STimeWindowAggSupp){ .waterMark = pSessionNode->window.watermark, .calTrigger = pSessionNode->window.triggerType, .maxTs = INT64_MIN, .minTs = INT64_MAX, }; initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); pInfo->primaryTsIndex = ((SColumnNode*)pSessionNode->window.pTspk)->slotId; if (pSessionNode->window.pTsEnd) { pInfo->endTsIndex = ((SColumnNode*)pSessionNode->window.pTsEnd)->slotId; } pInfo->binfo.pRes = pResBlock; pInfo->order = TSDB_ORDER_ASC; _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pStDeleted = tSimpleHashInit(64, hashFn); pInfo->pDelIterator = NULL; pInfo->pDelRes = createSpecialDataBlock(STREAM_DELETE_RESULT); pInfo->pChildren = NULL; pInfo->isFinal = false; pInfo->pPhyNode = pPhyNode; pInfo->ignoreExpiredData = pSessionNode->window.igExpired; pInfo->ignoreExpiredDataSaved = false; pInfo->pUpdated = NULL; pInfo->pStUpdated = NULL; pInfo->dataVersion = 0; setOperatorInfo(pOperator, "StreamSessionWindowAggOperator", QUERY_NODE_PHYSICAL_PLAN_STREAM_SESSION, true, OP_NOT_OPENED, pInfo, pTaskInfo); pOperator->fpSet = createOperatorFpSet(optrDummyOpenFn, doStreamSessionAgg, NULL, destroyStreamSessionAggOperatorInfo, optrDefaultBufFn, NULL); if (downstream) { initDownStream(downstream, &pInfo->streamAggSup, pOperator->operatorType, pInfo->primaryTsIndex, &pInfo->twAggSup); code = appendDownstream(pOperator, &downstream, 1); } return pOperator; _error: if (pInfo != NULL) { destroyStreamSessionAggOperatorInfo(pInfo); } taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } static void clearStreamSessionOperator(SStreamSessionAggOperatorInfo* pInfo) { tSimpleHashClear(pInfo->streamAggSup.pResultRows); streamStateSessionClear(pInfo->streamAggSup.pState); } static SSDataBlock* doStreamSessionSemiAgg(SOperatorInfo* pOperator) { SStreamSessionAggOperatorInfo* pInfo = pOperator->info; SOptrBasicInfo* pBInfo = &pInfo->binfo; TSKEY maxTs = INT64_MIN; SExprSupp* pSup = &pOperator->exprSupp; SStreamAggSupporter* pAggSup = &pInfo->streamAggSup; if (pOperator->status == OP_EXEC_DONE) { return NULL; } { doBuildSessionResult(pOperator, pAggSup->pState, &pInfo->groupResInfo, pBInfo->pRes); if (pBInfo->pRes->info.rows > 0) { printDataBlock(pBInfo->pRes, "semi session"); return pBInfo->pRes; } doBuildDeleteDataBlock(pOperator, pInfo->pStDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { printDataBlock(pInfo->pDelRes, "semi session delete"); return pInfo->pDelRes; } if (pOperator->status == OP_RES_TO_RETURN) { clearFunctionContext(&pOperator->exprSupp); // semi interval operator clear disk buffer clearStreamSessionOperator(pInfo); setOperatorCompleted(pOperator); return NULL; } } SOperatorInfo* downstream = pOperator->pDownstream[0]; if (!pInfo->pUpdated) { pInfo->pUpdated = taosArrayInit(16, sizeof(SSessionKey)); } if (!pInfo->pStUpdated) { _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pStUpdated = tSimpleHashInit(64, hashFn); } while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { clearSpecialDataBlock(pInfo->pUpdateRes); pOperator->status = OP_RES_TO_RETURN; break; } printDataBlock(pBlock, "semi session recv"); if (pBlock->info.type == STREAM_DELETE_DATA || pBlock->info.type == STREAM_DELETE_RESULT || pBlock->info.type == STREAM_CLEAR) { // gap must be 0 SArray* pWins = taosArrayInit(16, sizeof(SSessionKey)); doDeleteTimeWindows(&pInfo->streamAggSup, pBlock, pWins); removeSessionResults(pInfo->pStUpdated, pWins); copyDeleteWindowInfo(pWins, pInfo->pStDeleted); taosArrayDestroy(pWins); break; } else if (pBlock->info.type == STREAM_GET_ALL) { getAllSessionWindow(pInfo->streamAggSup.pResultRows, pInfo->pStUpdated); continue; } else if (pBlock->info.type == STREAM_CREATE_CHILD_TABLE) { return pBlock; } else { ASSERTS(pBlock->info.type == STREAM_NORMAL || pBlock->info.type == STREAM_INVALID, "invalid SSDataBlock type"); } if (pInfo->scalarSupp.pExprInfo != NULL) { SExprSupp* pExprSup = &pInfo->scalarSupp; projectApplyFunctions(pExprSup->pExprInfo, pBlock, pBlock, pExprSup->pCtx, pExprSup->numOfExprs, NULL); } // the pDataBlock are always the same one, no need to call this again setInputDataBlock(pSup, pBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); doStreamSessionAggImpl(pOperator, pBlock, pInfo->pStUpdated, NULL, false); maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.window.ekey); } pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, maxTs); pBInfo->pRes->info.watermark = pInfo->twAggSup.maxTs; copyUpdateResult(pInfo->pStUpdated, pInfo->pUpdated); removeSessionResults(pInfo->pStDeleted, pInfo->pUpdated); tSimpleHashCleanup(pInfo->pStUpdated); pInfo->pStUpdated = NULL; initGroupResInfoFromArrayList(&pInfo->groupResInfo, pInfo->pUpdated); pInfo->pUpdated = NULL; blockDataEnsureCapacity(pBInfo->pRes, pOperator->resultInfo.capacity); #if 0 char* pBuf = streamStateSessionDump(pAggSup->pState); qDebug("===stream===semi session%s", pBuf); taosMemoryFree(pBuf); #endif doBuildSessionResult(pOperator, pAggSup->pState, &pInfo->groupResInfo, pBInfo->pRes); if (pBInfo->pRes->info.rows > 0) { printDataBlock(pBInfo->pRes, "semi session"); return pBInfo->pRes; } doBuildDeleteDataBlock(pOperator, pInfo->pStDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { printDataBlock(pInfo->pDelRes, "semi session delete"); return pInfo->pDelRes; } clearFunctionContext(&pOperator->exprSupp); // semi interval operator clear disk buffer clearStreamSessionOperator(pInfo); setOperatorCompleted(pOperator); return NULL; } SOperatorInfo* createStreamFinalSessionAggOperatorInfo(SOperatorInfo* downstream, SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo, int32_t numOfChild) { int32_t code = TSDB_CODE_OUT_OF_MEMORY; SOperatorInfo* pOperator = createStreamSessionAggOperatorInfo(downstream, pPhyNode, pTaskInfo); if (pOperator == NULL) { goto _error; } SStreamSessionAggOperatorInfo* pInfo = pOperator->info; pInfo->isFinal = (pPhyNode->type == QUERY_NODE_PHYSICAL_PLAN_STREAM_FINAL_SESSION); char* name = (pInfo->isFinal) ? "StreamSessionFinalAggOperator" : "StreamSessionSemiAggOperator"; if (pPhyNode->type != QUERY_NODE_PHYSICAL_PLAN_STREAM_FINAL_SESSION) { pInfo->pUpdateRes = createSpecialDataBlock(STREAM_CLEAR); blockDataEnsureCapacity(pInfo->pUpdateRes, 128); pOperator->fpSet = createOperatorFpSet(optrDummyOpenFn, doStreamSessionSemiAgg, NULL, destroyStreamSessionAggOperatorInfo, optrDefaultBufFn, NULL); } setOperatorInfo(pOperator, name, pPhyNode->type, false, OP_NOT_OPENED, pInfo, pTaskInfo); pOperator->operatorType = pPhyNode->type; if (numOfChild > 0) { pInfo->pChildren = taosArrayInit(numOfChild, sizeof(void*)); for (int32_t i = 0; i < numOfChild; i++) { SOperatorInfo* pChildOp = createStreamFinalSessionAggOperatorInfo(NULL, pPhyNode, pTaskInfo, 0); if (pChildOp == NULL) { goto _error; } SStreamSessionAggOperatorInfo* pChInfo = pChildOp->info; pChInfo->twAggSup.calTrigger = STREAM_TRIGGER_AT_ONCE; streamStateSetNumber(pChInfo->streamAggSup.pState, i); taosArrayPush(pInfo->pChildren, &pChildOp); } } if (!IS_FINAL_OP(pInfo) || numOfChild == 0) { pInfo->twAggSup.calTrigger = STREAM_TRIGGER_AT_ONCE; } return pOperator; _error: if (pInfo != NULL) { destroyStreamSessionAggOperatorInfo(pInfo); } taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } void destroyStreamStateOperatorInfo(void* param) { SStreamStateAggOperatorInfo* pInfo = (SStreamStateAggOperatorInfo*)param; cleanupBasicInfo(&pInfo->binfo); destroyStreamAggSupporter(&pInfo->streamAggSup); cleanupGroupResInfo(&pInfo->groupResInfo); if (pInfo->pChildren != NULL) { int32_t size = taosArrayGetSize(pInfo->pChildren); for (int32_t i = 0; i < size; i++) { SOperatorInfo* pChild = taosArrayGetP(pInfo->pChildren, i); destroyOperatorInfo(pChild); } taosArrayDestroy(pInfo->pChildren); } colDataDestroy(&pInfo->twAggSup.timeWindowData); blockDataDestroy(pInfo->pDelRes); tSimpleHashCleanup(pInfo->pSeDeleted); taosMemoryFreeClear(param); } bool isTsInWindow(SStateWindowInfo* pWin, TSKEY ts) { if (pWin->winInfo.sessionWin.win.skey <= ts && ts <= pWin->winInfo.sessionWin.win.ekey) { return true; } return false; } bool isEqualStateKey(SStateWindowInfo* pWin, char* pKeyData) { return pKeyData && compareVal(pKeyData, pWin->pStateKey); } bool compareStateKey(void* data, void* key) { SStateKeys* stateKey = (SStateKeys*)key; stateKey->pData = (char*)key + sizeof(SStateKeys); return compareVal(data, stateKey); } void setStateOutputBuf(SStreamAggSupporter* pAggSup, TSKEY ts, uint64_t groupId, char* pKeyData, SStateWindowInfo* pCurWin, SStateWindowInfo* pNextWin) { int32_t size = pAggSup->resultRowSize; pCurWin->winInfo.sessionWin.groupId = groupId; pCurWin->winInfo.sessionWin.win.skey = ts; pCurWin->winInfo.sessionWin.win.ekey = ts; int32_t code = streamStateStateAddIfNotExist(pAggSup->pState, &pCurWin->winInfo.sessionWin, pKeyData, pAggSup->stateKeySize, compareStateKey, &pCurWin->winInfo.pOutputBuf, &size); pCurWin->pStateKey = (SStateKeys*)((char*)pCurWin->winInfo.pOutputBuf + (pAggSup->resultRowSize - pAggSup->stateKeySize)); pCurWin->pStateKey->bytes = pAggSup->stateKeySize - sizeof(SStateKeys); pCurWin->pStateKey->type = pAggSup->stateKeyType; pCurWin->pStateKey->pData = (char*)pCurWin->pStateKey + sizeof(SStateKeys); pCurWin->pStateKey->isNull = false; if (code == TSDB_CODE_SUCCESS) { pCurWin->winInfo.isOutput = true; } else { if (IS_VAR_DATA_TYPE(pAggSup->stateKeyType)) { varDataCopy(pCurWin->pStateKey->pData, pKeyData); } else { memcpy(pCurWin->pStateKey->pData, pKeyData, pCurWin->pStateKey->bytes); } } pNextWin->winInfo.sessionWin = pCurWin->winInfo.sessionWin; pNextWin->winInfo.pOutputBuf = NULL; SStreamStateCur* pCur = streamStateSessionSeekKeyNext(pAggSup->pState, &pCurWin->winInfo.sessionWin); code = streamStateSessionGetKVByCur(pCur, &pNextWin->winInfo.sessionWin, NULL, 0); if (code != TSDB_CODE_SUCCESS) { SET_SESSION_WIN_INVALID(pNextWin->winInfo); } streamStateFreeCur(pCur); } int32_t updateStateWindowInfo(SStateWindowInfo* pWinInfo, SStateWindowInfo* pNextWin, TSKEY* pTs, uint64_t groupId, SColumnInfoData* pKeyCol, int32_t rows, int32_t start, bool* allEqual, SSHashObj* pResultRows, SSHashObj* pSeUpdated, SSHashObj* pSeDeleted) { *allEqual = true; for (int32_t i = start; i < rows; ++i) { char* pKeyData = colDataGetData(pKeyCol, i); if (!isTsInWindow(pWinInfo, pTs[i])) { if (isEqualStateKey(pWinInfo, pKeyData)) { if (IS_VALID_SESSION_WIN(pNextWin->winInfo)) { // ts belongs to the next window if (pTs[i] >= pNextWin->winInfo.sessionWin.win.skey) { return i - start; } } } else { return i - start; } } if (pWinInfo->winInfo.sessionWin.win.skey > pTs[i]) { if (pSeDeleted && pWinInfo->winInfo.isOutput) { saveDeleteRes(pSeDeleted, pWinInfo->winInfo.sessionWin); } removeSessionResult(pSeUpdated, pResultRows, pWinInfo->winInfo.sessionWin); pWinInfo->winInfo.sessionWin.win.skey = pTs[i]; } pWinInfo->winInfo.sessionWin.win.ekey = TMAX(pWinInfo->winInfo.sessionWin.win.ekey, pTs[i]); if (!isEqualStateKey(pWinInfo, pKeyData)) { *allEqual = false; } } return rows - start; } static void doStreamStateAggImpl(SOperatorInfo* pOperator, SSDataBlock* pSDataBlock, SSHashObj* pSeUpdated, SSHashObj* pStDeleted) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SStreamStateAggOperatorInfo* pInfo = pOperator->info; int32_t numOfOutput = pOperator->exprSupp.numOfExprs; uint64_t groupId = pSDataBlock->info.id.groupId; int64_t code = TSDB_CODE_SUCCESS; TSKEY* tsCols = NULL; SResultRow* pResult = NULL; int32_t winRows = 0; pInfo->dataVersion = TMAX(pInfo->dataVersion, pSDataBlock->info.version); if (pSDataBlock->pDataBlock != NULL) { SColumnInfoData* pColDataInfo = taosArrayGet(pSDataBlock->pDataBlock, pInfo->primaryTsIndex); tsCols = (int64_t*)pColDataInfo->pData; } else { return; } SStreamAggSupporter* pAggSup = &pInfo->streamAggSup; int32_t rows = pSDataBlock->info.rows; blockDataEnsureCapacity(pAggSup->pScanBlock, rows); SColumnInfoData* pKeyColInfo = taosArrayGet(pSDataBlock->pDataBlock, pInfo->stateCol.slotId); for (int32_t i = 0; i < rows; i += winRows) { if (pInfo->ignoreExpiredData && isOverdue(tsCols[i], &pInfo->twAggSup) || colDataIsNull_s(pKeyColInfo, i)) { i++; continue; } char* pKeyData = colDataGetData(pKeyColInfo, i); int32_t winIndex = 0; bool allEqual = true; SStateWindowInfo curWin = {0}; SStateWindowInfo nextWin = {0}; setStateOutputBuf(pAggSup, tsCols[i], groupId, pKeyData, &curWin, &nextWin); setSessionWinOutputInfo(pSeUpdated, &curWin.winInfo); winRows = updateStateWindowInfo(&curWin, &nextWin, tsCols, groupId, pKeyColInfo, rows, i, &allEqual, pAggSup->pResultRows, pSeUpdated, pStDeleted); if (!allEqual) { uint64_t uid = 0; appendOneRowToStreamSpecialBlock(pAggSup->pScanBlock, &curWin.winInfo.sessionWin.win.skey, &curWin.winInfo.sessionWin.win.ekey, &uid, &groupId, NULL); tSimpleHashRemove(pSeUpdated, &curWin.winInfo.sessionWin, sizeof(SSessionKey)); doDeleteSessionWindow(pAggSup, &curWin.winInfo.sessionWin); releaseOutputBuf(pAggSup->pState, NULL, (SResultRow*)curWin.winInfo.pOutputBuf); continue; } code = doOneWindowAggImpl(&pInfo->twAggSup.timeWindowData, &curWin.winInfo, &pResult, i, winRows, rows, numOfOutput, pOperator); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } saveSessionOutputBuf(pAggSup, &curWin.winInfo); if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_AT_ONCE) { code = saveResult(curWin.winInfo, pSeUpdated); if (code != TSDB_CODE_SUCCESS) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } } if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_WINDOW_CLOSE) { SSessionKey key = {0}; getSessionHashKey(&curWin.winInfo.sessionWin, &key); tSimpleHashPut(pAggSup->pResultRows, &key, sizeof(SSessionKey), &curWin.winInfo, sizeof(SResultWindowInfo)); } } } static SSDataBlock* doStreamStateAgg(SOperatorInfo* pOperator) { if (pOperator->status == OP_EXEC_DONE) { return NULL; } SExprSupp* pSup = &pOperator->exprSupp; SStreamStateAggOperatorInfo* pInfo = pOperator->info; SOptrBasicInfo* pBInfo = &pInfo->binfo; if (pOperator->status == OP_RES_TO_RETURN) { doBuildDeleteDataBlock(pOperator, pInfo->pSeDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { printDataBlock(pInfo->pDelRes, "single state delete"); return pInfo->pDelRes; } doBuildSessionResult(pOperator, pInfo->streamAggSup.pState, &pInfo->groupResInfo, pBInfo->pRes); if (pBInfo->pRes->info.rows > 0) { printDataBlock(pBInfo->pRes, "single state"); return pBInfo->pRes; } setOperatorCompleted(pOperator); return NULL; } SOperatorInfo* downstream = pOperator->pDownstream[0]; if (!pInfo->pUpdated) { pInfo->pUpdated = taosArrayInit(16, sizeof(SSessionKey)); } if (!pInfo->pSeUpdated) { _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pSeUpdated = tSimpleHashInit(64, hashFn); } while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { break; } printDataBlock(pBlock, "single state recv"); if (pBlock->info.type == STREAM_DELETE_DATA || pBlock->info.type == STREAM_DELETE_RESULT || pBlock->info.type == STREAM_CLEAR) { SArray* pWins = taosArrayInit(16, sizeof(SSessionKey)); doDeleteTimeWindows(&pInfo->streamAggSup, pBlock, pWins); removeSessionResults(pInfo->pSeUpdated, pWins); copyDeleteWindowInfo(pWins, pInfo->pSeDeleted); taosArrayDestroy(pWins); continue; } else if (pBlock->info.type == STREAM_GET_ALL) { getAllSessionWindow(pInfo->streamAggSup.pResultRows, pInfo->pSeUpdated); continue; } else if (pBlock->info.type == STREAM_CREATE_CHILD_TABLE) { return pBlock; } else { ASSERTS(pBlock->info.type == STREAM_NORMAL || pBlock->info.type == STREAM_INVALID, "invalid SSDataBlock type"); } if (pInfo->scalarSupp.pExprInfo != NULL) { SExprSupp* pExprSup = &pInfo->scalarSupp; projectApplyFunctions(pExprSup->pExprInfo, pBlock, pBlock, pExprSup->pCtx, pExprSup->numOfExprs, NULL); } // the pDataBlock are always the same one, no need to call this again setInputDataBlock(pSup, pBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); doStreamStateAggImpl(pOperator, pBlock, pInfo->pSeUpdated, pInfo->pSeDeleted); pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.window.ekey); } // restore the value pOperator->status = OP_RES_TO_RETURN; closeSessionWindow(pInfo->streamAggSup.pResultRows, &pInfo->twAggSup, pInfo->pSeUpdated); copyUpdateResult(pInfo->pSeUpdated, pInfo->pUpdated); removeSessionResults(pInfo->pSeDeleted, pInfo->pUpdated); tSimpleHashCleanup(pInfo->pSeUpdated); pInfo->pSeUpdated = NULL; initGroupResInfoFromArrayList(&pInfo->groupResInfo, pInfo->pUpdated); pInfo->pUpdated = NULL; blockDataEnsureCapacity(pInfo->binfo.pRes, pOperator->resultInfo.capacity); #if 0 char* pBuf = streamStateSessionDump(pInfo->streamAggSup.pState); qDebug("===stream===final session%s", pBuf); taosMemoryFree(pBuf); #endif doBuildDeleteDataBlock(pOperator, pInfo->pSeDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { printDataBlock(pInfo->pDelRes, "single state delete"); return pInfo->pDelRes; } doBuildSessionResult(pOperator, pInfo->streamAggSup.pState, &pInfo->groupResInfo, pBInfo->pRes); if (pBInfo->pRes->info.rows > 0) { printDataBlock(pBInfo->pRes, "single state"); return pBInfo->pRes; } setOperatorCompleted(pOperator); return NULL; } SOperatorInfo* createStreamStateAggOperatorInfo(SOperatorInfo* downstream, SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo) { SStreamStateWinodwPhysiNode* pStateNode = (SStreamStateWinodwPhysiNode*)pPhyNode; int32_t tsSlotId = ((SColumnNode*)pStateNode->window.pTspk)->slotId; SColumnNode* pColNode = (SColumnNode*)((STargetNode*)pStateNode->pStateKey)->pExpr; int32_t code = TSDB_CODE_SUCCESS; SStreamStateAggOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SStreamStateAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; goto _error; } pInfo->stateCol = extractColumnFromColumnNode(pColNode); initResultSizeInfo(&pOperator->resultInfo, 4096); if (pStateNode->window.pExprs != NULL) { int32_t numOfScalar = 0; SExprInfo* pScalarExprInfo = createExprInfo(pStateNode->window.pExprs, NULL, &numOfScalar); code = initExprSupp(&pInfo->scalarSupp, pScalarExprInfo, numOfScalar); if (code != TSDB_CODE_SUCCESS) { goto _error; } } pInfo->twAggSup = (STimeWindowAggSupp){ .waterMark = pStateNode->window.watermark, .calTrigger = pStateNode->window.triggerType, .maxTs = INT64_MIN, .minTs = INT64_MAX, }; initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); SExprSupp* pSup = &pOperator->exprSupp; int32_t numOfCols = 0; SExprInfo* pExprInfo = createExprInfo(pStateNode->window.pFuncs, NULL, &numOfCols); SSDataBlock* pResBlock = createDataBlockFromDescNode(pPhyNode->pOutputDataBlockDesc); code = initBasicInfoEx(&pInfo->binfo, pSup, pExprInfo, numOfCols, pResBlock); if (code != TSDB_CODE_SUCCESS) { goto _error; } int32_t keySize = sizeof(SStateKeys) + pColNode->node.resType.bytes; int16_t type = pColNode->node.resType.type; code = initStreamAggSupporter(&pInfo->streamAggSup, pSup->pCtx, numOfCols, 0, pTaskInfo->streamInfo.pState, keySize, type); if (code != TSDB_CODE_SUCCESS) { goto _error; } pInfo->primaryTsIndex = tsSlotId; _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pSeDeleted = tSimpleHashInit(64, hashFn); pInfo->pDelIterator = NULL; pInfo->pDelRes = createSpecialDataBlock(STREAM_DELETE_RESULT); pInfo->pChildren = NULL; pInfo->ignoreExpiredData = pStateNode->window.igExpired; pInfo->ignoreExpiredDataSaved = false; pInfo->pUpdated = NULL; pInfo->pSeUpdated = NULL; pInfo->dataVersion = 0; setOperatorInfo(pOperator, "StreamStateAggOperator", QUERY_NODE_PHYSICAL_PLAN_STREAM_STATE, true, OP_NOT_OPENED, pInfo, pTaskInfo); pOperator->fpSet = createOperatorFpSet(optrDummyOpenFn, doStreamStateAgg, NULL, destroyStreamStateOperatorInfo, optrDefaultBufFn, NULL); initDownStream(downstream, &pInfo->streamAggSup, pOperator->operatorType, pInfo->primaryTsIndex, &pInfo->twAggSup); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyStreamStateOperatorInfo(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } void destroyMAIOperatorInfo(void* param) { SMergeAlignedIntervalAggOperatorInfo* miaInfo = (SMergeAlignedIntervalAggOperatorInfo*)param; destroyIntervalOperatorInfo(miaInfo->intervalAggOperatorInfo); taosMemoryFreeClear(param); } static SResultRow* doSetSingleOutputTupleBuf(SResultRowInfo* pResultRowInfo, SAggSupporter* pSup) { SResultRow* pResult = getNewResultRow(pSup->pResultBuf, &pSup->currentPageId, pSup->resultRowSize); if (NULL == pResult) { return pResult; } pResultRowInfo->cur = (SResultRowPosition){.pageId = pResult->pageId, .offset = pResult->offset}; return pResult; } static int32_t setSingleOutputTupleBuf(SResultRowInfo* pResultRowInfo, STimeWindow* win, SResultRow** pResult, SExprSupp* pExprSup, SAggSupporter* pAggSup) { if (*pResult == NULL) { *pResult = doSetSingleOutputTupleBuf(pResultRowInfo, pAggSup); if (*pResult == NULL) { return terrno; } } // set time window for current result (*pResult)->win = (*win); setResultRowInitCtx((*pResult), pExprSup->pCtx, pExprSup->numOfExprs, pExprSup->rowEntryInfoOffset); return TSDB_CODE_SUCCESS; } static void doMergeAlignedIntervalAggImpl(SOperatorInfo* pOperatorInfo, SResultRowInfo* pResultRowInfo, SSDataBlock* pBlock, SSDataBlock* pResultBlock) { SMergeAlignedIntervalAggOperatorInfo* miaInfo = pOperatorInfo->info; SIntervalAggOperatorInfo* iaInfo = miaInfo->intervalAggOperatorInfo; SExecTaskInfo* pTaskInfo = pOperatorInfo->pTaskInfo; SExprSupp* pSup = &pOperatorInfo->exprSupp; SInterval* pInterval = &iaInfo->interval; int32_t startPos = 0; int64_t* tsCols = extractTsCol(pBlock, iaInfo); TSKEY ts = getStartTsKey(&pBlock->info.window, tsCols); // there is an result exists if (miaInfo->curTs != INT64_MIN) { if (ts != miaInfo->curTs) { finalizeResultRows(iaInfo->aggSup.pResultBuf, &pResultRowInfo->cur, pSup, pResultBlock, pTaskInfo); resetResultRow(miaInfo->pResultRow, iaInfo->aggSup.resultRowSize - sizeof(SResultRow)); miaInfo->curTs = ts; } } else { miaInfo->curTs = ts; } STimeWindow win = {0}; win.skey = miaInfo->curTs; win.ekey = taosTimeAdd(win.skey, pInterval->interval, pInterval->intervalUnit, pInterval->precision) - 1; int32_t ret = setSingleOutputTupleBuf(pResultRowInfo, &win, &miaInfo->pResultRow, pSup, &iaInfo->aggSup); if (ret != TSDB_CODE_SUCCESS || miaInfo->pResultRow == NULL) { T_LONG_JMP(pTaskInfo->env, ret); } int32_t currPos = startPos; STimeWindow currWin = win; while (++currPos < pBlock->info.rows) { if (tsCols[currPos] == miaInfo->curTs) { continue; } updateTimeWindowInfo(&iaInfo->twAggSup.timeWindowData, &currWin, true); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &iaInfo->twAggSup.timeWindowData, startPos, currPos - startPos, pBlock->info.rows, pSup->numOfExprs); finalizeResultRows(iaInfo->aggSup.pResultBuf, &pResultRowInfo->cur, pSup, pResultBlock, pTaskInfo); resetResultRow(miaInfo->pResultRow, iaInfo->aggSup.resultRowSize - sizeof(SResultRow)); miaInfo->curTs = tsCols[currPos]; currWin.skey = miaInfo->curTs; currWin.ekey = taosTimeAdd(currWin.skey, pInterval->interval, pInterval->intervalUnit, pInterval->precision) - 1; startPos = currPos; ret = setSingleOutputTupleBuf(pResultRowInfo, &win, &miaInfo->pResultRow, pSup, &iaInfo->aggSup); if (ret != TSDB_CODE_SUCCESS || miaInfo->pResultRow == NULL) { T_LONG_JMP(pTaskInfo->env, ret); } miaInfo->curTs = currWin.skey; } updateTimeWindowInfo(&iaInfo->twAggSup.timeWindowData, &currWin, true); applyAggFunctionOnPartialTuples(pTaskInfo, pSup->pCtx, &iaInfo->twAggSup.timeWindowData, startPos, currPos - startPos, pBlock->info.rows, pSup->numOfExprs); } static void cleanupAfterGroupResultGen(SMergeAlignedIntervalAggOperatorInfo* pMiaInfo, SSDataBlock* pRes) { pRes->info.id.groupId = pMiaInfo->groupId; pMiaInfo->curTs = INT64_MIN; pMiaInfo->groupId = 0; } static void doMergeAlignedIntervalAgg(SOperatorInfo* pOperator) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SMergeAlignedIntervalAggOperatorInfo* pMiaInfo = pOperator->info; SIntervalAggOperatorInfo* pIaInfo = pMiaInfo->intervalAggOperatorInfo; SExprSupp* pSup = &pOperator->exprSupp; SSDataBlock* pRes = pIaInfo->binfo.pRes; SResultRowInfo* pResultRowInfo = &pIaInfo->binfo.resultRowInfo; SOperatorInfo* downstream = pOperator->pDownstream[0]; int32_t scanFlag = MAIN_SCAN; while (1) { SSDataBlock* pBlock = NULL; if (pMiaInfo->prefetchedBlock == NULL) { pBlock = downstream->fpSet.getNextFn(downstream); } else { pBlock = pMiaInfo->prefetchedBlock; pMiaInfo->prefetchedBlock = NULL; pMiaInfo->groupId = pBlock->info.id.groupId; } // no data exists, all query processing is done if (pBlock == NULL) { // close last unclosed time window if (pMiaInfo->curTs != INT64_MIN) { finalizeResultRows(pIaInfo->aggSup.pResultBuf, &pResultRowInfo->cur, pSup, pRes, pTaskInfo); resetResultRow(pMiaInfo->pResultRow, pIaInfo->aggSup.resultRowSize - sizeof(SResultRow)); cleanupAfterGroupResultGen(pMiaInfo, pRes); } setOperatorCompleted(pOperator); break; } if (pMiaInfo->groupId == 0) { if (pMiaInfo->groupId != pBlock->info.id.groupId) { pMiaInfo->groupId = pBlock->info.id.groupId; pRes->info.id.groupId = pMiaInfo->groupId; } } else { if (pMiaInfo->groupId != pBlock->info.id.groupId) { // if there are unclosed time window, close it firstly. ASSERT(pMiaInfo->curTs != INT64_MIN); finalizeResultRows(pIaInfo->aggSup.pResultBuf, &pResultRowInfo->cur, pSup, pRes, pTaskInfo); resetResultRow(pMiaInfo->pResultRow, pIaInfo->aggSup.resultRowSize - sizeof(SResultRow)); pMiaInfo->prefetchedBlock = pBlock; cleanupAfterGroupResultGen(pMiaInfo, pRes); break; } else { // continue pRes->info.id.groupId = pMiaInfo->groupId; } } getTableScanInfo(pOperator, &pIaInfo->inputOrder, &scanFlag, false); setInputDataBlock(pSup, pBlock, pIaInfo->inputOrder, scanFlag, true); doMergeAlignedIntervalAggImpl(pOperator, &pIaInfo->binfo.resultRowInfo, pBlock, pRes); doFilter(pRes, pOperator->exprSupp.pFilterInfo, NULL); if (pRes->info.rows >= pOperator->resultInfo.capacity) { break; } } } static SSDataBlock* mergeAlignedIntervalAgg(SOperatorInfo* pOperator) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SMergeAlignedIntervalAggOperatorInfo* pMiaInfo = pOperator->info; SIntervalAggOperatorInfo* iaInfo = pMiaInfo->intervalAggOperatorInfo; if (pOperator->status == OP_EXEC_DONE) { return NULL; } SSDataBlock* pRes = iaInfo->binfo.pRes; blockDataCleanup(pRes); if (iaInfo->binfo.mergeResultBlock) { while (1) { if (pOperator->status == OP_EXEC_DONE) { break; } if (pRes->info.rows >= pOperator->resultInfo.threshold) { break; } doMergeAlignedIntervalAgg(pOperator); } } else { doMergeAlignedIntervalAgg(pOperator); } size_t rows = pRes->info.rows; pOperator->resultInfo.totalRows += rows; return (rows == 0) ? NULL : pRes; } SOperatorInfo* createMergeAlignedIntervalOperatorInfo(SOperatorInfo* downstream, SMergeAlignedIntervalPhysiNode* pNode, SExecTaskInfo* pTaskInfo) { SMergeAlignedIntervalAggOperatorInfo* miaInfo = taosMemoryCalloc(1, sizeof(SMergeAlignedIntervalAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (miaInfo == NULL || pOperator == NULL) { goto _error; } miaInfo->intervalAggOperatorInfo = taosMemoryCalloc(1, sizeof(SIntervalAggOperatorInfo)); if (miaInfo->intervalAggOperatorInfo == NULL) { goto _error; } SInterval interval = {.interval = pNode->interval, .sliding = pNode->sliding, .intervalUnit = pNode->intervalUnit, .slidingUnit = pNode->slidingUnit, .offset = pNode->offset, .precision = ((SColumnNode*)pNode->window.pTspk)->node.resType.precision}; SIntervalAggOperatorInfo* iaInfo = miaInfo->intervalAggOperatorInfo; SExprSupp* pSup = &pOperator->exprSupp; int32_t code = filterInitFromNode((SNode*)pNode->window.node.pConditions, &pOperator->exprSupp.pFilterInfo, 0); if (code != TSDB_CODE_SUCCESS) { goto _error; } miaInfo->curTs = INT64_MIN; iaInfo->win = pTaskInfo->window; iaInfo->inputOrder = TSDB_ORDER_ASC; iaInfo->interval = interval; iaInfo->primaryTsIndex = ((SColumnNode*)pNode->window.pTspk)->slotId; iaInfo->binfo.mergeResultBlock = pNode->window.mergeDataBlock; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(&pOperator->resultInfo, 512); int32_t num = 0; SExprInfo* pExprInfo = createExprInfo(pNode->window.pFuncs, NULL, &num); code = initAggSup(&pOperator->exprSupp, &iaInfo->aggSup, pExprInfo, num, keyBufSize, pTaskInfo->id.str, pTaskInfo->streamInfo.pState); if (code != TSDB_CODE_SUCCESS) { goto _error; } SSDataBlock* pResBlock = createDataBlockFromDescNode(pNode->window.node.pOutputDataBlockDesc); initBasicInfo(&iaInfo->binfo, pResBlock); initExecTimeWindowInfo(&iaInfo->twAggSup.timeWindowData, &iaInfo->win); iaInfo->timeWindowInterpo = timeWindowinterpNeeded(pSup->pCtx, num, iaInfo); if (iaInfo->timeWindowInterpo) { iaInfo->binfo.resultRowInfo.openWindow = tdListNew(sizeof(SOpenWindowInfo)); } initResultRowInfo(&iaInfo->binfo.resultRowInfo); blockDataEnsureCapacity(iaInfo->binfo.pRes, pOperator->resultInfo.capacity); setOperatorInfo(pOperator, "TimeMergeAlignedIntervalAggOperator", QUERY_NODE_PHYSICAL_PLAN_MERGE_ALIGNED_INTERVAL, false, OP_NOT_OPENED, miaInfo, pTaskInfo); pOperator->fpSet = createOperatorFpSet(optrDummyOpenFn, mergeAlignedIntervalAgg, NULL, destroyMAIOperatorInfo, optrDefaultBufFn, NULL); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyMAIOperatorInfo(miaInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } //===================================================================================================================== // merge interval operator typedef struct SMergeIntervalAggOperatorInfo { SIntervalAggOperatorInfo intervalAggOperatorInfo; SList* groupIntervals; SListIter groupIntervalsIter; bool hasGroupId; uint64_t groupId; SSDataBlock* prefetchedBlock; bool inputBlocksFinished; } SMergeIntervalAggOperatorInfo; typedef struct SGroupTimeWindow { uint64_t groupId; STimeWindow window; } SGroupTimeWindow; void destroyMergeIntervalOperatorInfo(void* param) { SMergeIntervalAggOperatorInfo* miaInfo = (SMergeIntervalAggOperatorInfo*)param; tdListFree(miaInfo->groupIntervals); destroyIntervalOperatorInfo(&miaInfo->intervalAggOperatorInfo); taosMemoryFreeClear(param); } static int32_t finalizeWindowResult(SOperatorInfo* pOperatorInfo, uint64_t tableGroupId, STimeWindow* win, SSDataBlock* pResultBlock) { SMergeIntervalAggOperatorInfo* miaInfo = pOperatorInfo->info; SIntervalAggOperatorInfo* iaInfo = &miaInfo->intervalAggOperatorInfo; SExecTaskInfo* pTaskInfo = pOperatorInfo->pTaskInfo; bool ascScan = (iaInfo->inputOrder == TSDB_ORDER_ASC); SExprSupp* pExprSup = &pOperatorInfo->exprSupp; SET_RES_WINDOW_KEY(iaInfo->aggSup.keyBuf, &win->skey, TSDB_KEYSIZE, tableGroupId); SResultRowPosition* p1 = (SResultRowPosition*)tSimpleHashGet( iaInfo->aggSup.pResultRowHashTable, iaInfo->aggSup.keyBuf, GET_RES_WINDOW_KEY_LEN(TSDB_KEYSIZE)); ASSERT(p1 != NULL); // finalizeResultRows(iaInfo->aggSup.pResultBuf, p1, pResultBlock, pTaskInfo); tSimpleHashRemove(iaInfo->aggSup.pResultRowHashTable, iaInfo->aggSup.keyBuf, GET_RES_WINDOW_KEY_LEN(TSDB_KEYSIZE)); return TSDB_CODE_SUCCESS; } static int32_t outputPrevIntervalResult(SOperatorInfo* pOperatorInfo, uint64_t tableGroupId, SSDataBlock* pResultBlock, STimeWindow* newWin) { SMergeIntervalAggOperatorInfo* miaInfo = pOperatorInfo->info; SIntervalAggOperatorInfo* iaInfo = &miaInfo->intervalAggOperatorInfo; bool ascScan = (iaInfo->inputOrder == TSDB_ORDER_ASC); SGroupTimeWindow groupTimeWindow = {.groupId = tableGroupId, .window = *newWin}; tdListAppend(miaInfo->groupIntervals, &groupTimeWindow); SListIter iter = {0}; tdListInitIter(miaInfo->groupIntervals, &iter, TD_LIST_FORWARD); SListNode* listNode = NULL; while ((listNode = tdListNext(&iter)) != NULL) { SGroupTimeWindow* prevGrpWin = (SGroupTimeWindow*)listNode->data; if (prevGrpWin->groupId != tableGroupId) { continue; } STimeWindow* prevWin = &prevGrpWin->window; if ((ascScan && newWin->skey > prevWin->ekey) || ((!ascScan) && newWin->skey < prevWin->ekey)) { // finalizeWindowResult(pOperatorInfo, tableGroupId, prevWin, pResultBlock); tdListPopNode(miaInfo->groupIntervals, listNode); } } return 0; } static void doMergeIntervalAggImpl(SOperatorInfo* pOperatorInfo, SResultRowInfo* pResultRowInfo, SSDataBlock* pBlock, int32_t scanFlag, SSDataBlock* pResultBlock) { SMergeIntervalAggOperatorInfo* miaInfo = pOperatorInfo->info; SIntervalAggOperatorInfo* iaInfo = &miaInfo->intervalAggOperatorInfo; SExecTaskInfo* pTaskInfo = pOperatorInfo->pTaskInfo; SExprSupp* pExprSup = &pOperatorInfo->exprSupp; int32_t startPos = 0; int32_t numOfOutput = pExprSup->numOfExprs; int64_t* tsCols = extractTsCol(pBlock, iaInfo); uint64_t tableGroupId = pBlock->info.id.groupId; bool ascScan = (iaInfo->inputOrder == TSDB_ORDER_ASC); TSKEY blockStartTs = getStartTsKey(&pBlock->info.window, tsCols); SResultRow* pResult = NULL; STimeWindow win = getActiveTimeWindow(iaInfo->aggSup.pResultBuf, pResultRowInfo, blockStartTs, &iaInfo->interval, iaInfo->inputOrder); int32_t ret = setTimeWindowOutputBuf(pResultRowInfo, &win, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, pExprSup->pCtx, numOfOutput, pExprSup->rowEntryInfoOffset, &iaInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS || pResult == NULL) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } TSKEY ekey = ascScan ? win.ekey : win.skey; int32_t forwardRows = getNumOfRowsInTimeWindow(&pBlock->info, tsCols, startPos, ekey, binarySearchForKey, NULL, iaInfo->inputOrder); ASSERT(forwardRows > 0); // prev time window not interpolation yet. if (iaInfo->timeWindowInterpo) { SResultRowPosition pos = addToOpenWindowList(pResultRowInfo, pResult, tableGroupId); doInterpUnclosedTimeWindow(pOperatorInfo, numOfOutput, pResultRowInfo, pBlock, scanFlag, tsCols, &pos); // restore current time window ret = setTimeWindowOutputBuf(pResultRowInfo, &win, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, pExprSup->pCtx, numOfOutput, pExprSup->rowEntryInfoOffset, &iaInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } // window start key interpolation doWindowBorderInterpolation(iaInfo, pBlock, pResult, &win, startPos, forwardRows, pExprSup); } updateTimeWindowInfo(&iaInfo->twAggSup.timeWindowData, &win, true); applyAggFunctionOnPartialTuples(pTaskInfo, pExprSup->pCtx, &iaInfo->twAggSup.timeWindowData, startPos, forwardRows, pBlock->info.rows, numOfOutput); doCloseWindow(pResultRowInfo, iaInfo, pResult); // output previous interval results after this interval (&win) is closed outputPrevIntervalResult(pOperatorInfo, tableGroupId, pResultBlock, &win); STimeWindow nextWin = win; while (1) { int32_t prevEndPos = forwardRows - 1 + startPos; startPos = getNextQualifiedWindow(&iaInfo->interval, &nextWin, &pBlock->info, tsCols, prevEndPos, iaInfo->inputOrder); if (startPos < 0) { break; } // null data, failed to allocate more memory buffer int32_t code = setTimeWindowOutputBuf(pResultRowInfo, &nextWin, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, pExprSup->pCtx, numOfOutput, pExprSup->rowEntryInfoOffset, &iaInfo->aggSup, pTaskInfo); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_OUT_OF_MEMORY); } ekey = ascScan ? nextWin.ekey : nextWin.skey; forwardRows = getNumOfRowsInTimeWindow(&pBlock->info, tsCols, startPos, ekey, binarySearchForKey, NULL, iaInfo->inputOrder); // window start(end) key interpolation doWindowBorderInterpolation(iaInfo, pBlock, pResult, &nextWin, startPos, forwardRows, pExprSup); updateTimeWindowInfo(&iaInfo->twAggSup.timeWindowData, &nextWin, true); applyAggFunctionOnPartialTuples(pTaskInfo, pExprSup->pCtx, &iaInfo->twAggSup.timeWindowData, startPos, forwardRows, pBlock->info.rows, numOfOutput); doCloseWindow(pResultRowInfo, iaInfo, pResult); // output previous interval results after this interval (&nextWin) is closed outputPrevIntervalResult(pOperatorInfo, tableGroupId, pResultBlock, &nextWin); } if (iaInfo->timeWindowInterpo) { saveDataBlockLastRow(iaInfo->pPrevValues, pBlock, iaInfo->pInterpCols); } } static SSDataBlock* doMergeIntervalAgg(SOperatorInfo* pOperator) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SMergeIntervalAggOperatorInfo* miaInfo = pOperator->info; SIntervalAggOperatorInfo* iaInfo = &miaInfo->intervalAggOperatorInfo; SExprSupp* pExpSupp = &pOperator->exprSupp; if (pOperator->status == OP_EXEC_DONE) { return NULL; } SSDataBlock* pRes = iaInfo->binfo.pRes; blockDataCleanup(pRes); blockDataEnsureCapacity(pRes, pOperator->resultInfo.capacity); if (!miaInfo->inputBlocksFinished) { SOperatorInfo* downstream = pOperator->pDownstream[0]; int32_t scanFlag = MAIN_SCAN; while (1) { SSDataBlock* pBlock = NULL; if (miaInfo->prefetchedBlock == NULL) { pBlock = downstream->fpSet.getNextFn(downstream); } else { pBlock = miaInfo->prefetchedBlock; miaInfo->groupId = pBlock->info.id.groupId; miaInfo->prefetchedBlock = NULL; } if (pBlock == NULL) { tdListInitIter(miaInfo->groupIntervals, &miaInfo->groupIntervalsIter, TD_LIST_FORWARD); miaInfo->inputBlocksFinished = true; break; } if (!miaInfo->hasGroupId) { miaInfo->hasGroupId = true; miaInfo->groupId = pBlock->info.id.groupId; } else if (miaInfo->groupId != pBlock->info.id.groupId) { miaInfo->prefetchedBlock = pBlock; break; } getTableScanInfo(pOperator, &iaInfo->inputOrder, &scanFlag, false); setInputDataBlock(pExpSupp, pBlock, iaInfo->inputOrder, scanFlag, true); doMergeIntervalAggImpl(pOperator, &iaInfo->binfo.resultRowInfo, pBlock, scanFlag, pRes); if (pRes->info.rows >= pOperator->resultInfo.threshold) { break; } } pRes->info.id.groupId = miaInfo->groupId; } if (miaInfo->inputBlocksFinished) { SListNode* listNode = tdListNext(&miaInfo->groupIntervalsIter); if (listNode != NULL) { SGroupTimeWindow* grpWin = (SGroupTimeWindow*)(listNode->data); // finalizeWindowResult(pOperator, grpWin->groupId, &grpWin->window, pRes); pRes->info.id.groupId = grpWin->groupId; } } if (pRes->info.rows == 0) { setOperatorCompleted(pOperator); } size_t rows = pRes->info.rows; pOperator->resultInfo.totalRows += rows; return (rows == 0) ? NULL : pRes; } SOperatorInfo* createMergeIntervalOperatorInfo(SOperatorInfo* downstream, SMergeIntervalPhysiNode* pIntervalPhyNode, SExecTaskInfo* pTaskInfo) { SMergeIntervalAggOperatorInfo* pMergeIntervalInfo = taosMemoryCalloc(1, sizeof(SMergeIntervalAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pMergeIntervalInfo == NULL || pOperator == NULL) { goto _error; } int32_t num = 0; SExprInfo* pExprInfo = createExprInfo(pIntervalPhyNode->window.pFuncs, NULL, &num); SInterval interval = {.interval = pIntervalPhyNode->interval, .sliding = pIntervalPhyNode->sliding, .intervalUnit = pIntervalPhyNode->intervalUnit, .slidingUnit = pIntervalPhyNode->slidingUnit, .offset = pIntervalPhyNode->offset, .precision = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->node.resType.precision}; pMergeIntervalInfo->groupIntervals = tdListNew(sizeof(SGroupTimeWindow)); SIntervalAggOperatorInfo* pIntervalInfo = &pMergeIntervalInfo->intervalAggOperatorInfo; pIntervalInfo->win = pTaskInfo->window; pIntervalInfo->inputOrder = TSDB_ORDER_ASC; pIntervalInfo->interval = interval; pIntervalInfo->binfo.mergeResultBlock = pIntervalPhyNode->window.mergeDataBlock; pIntervalInfo->primaryTsIndex = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->slotId; SExprSupp* pExprSupp = &pOperator->exprSupp; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(&pOperator->resultInfo, 4096); int32_t code = initAggSup(pExprSupp, &pIntervalInfo->aggSup, pExprInfo, num, keyBufSize, pTaskInfo->id.str, pTaskInfo->streamInfo.pState); if (code != TSDB_CODE_SUCCESS) { goto _error; } SSDataBlock* pResBlock = createDataBlockFromDescNode(pIntervalPhyNode->window.node.pOutputDataBlockDesc); initBasicInfo(&pIntervalInfo->binfo, pResBlock); initExecTimeWindowInfo(&pIntervalInfo->twAggSup.timeWindowData, &pIntervalInfo->win); pIntervalInfo->timeWindowInterpo = timeWindowinterpNeeded(pExprSupp->pCtx, num, pIntervalInfo); if (pIntervalInfo->timeWindowInterpo) { pIntervalInfo->binfo.resultRowInfo.openWindow = tdListNew(sizeof(SOpenWindowInfo)); if (pIntervalInfo->binfo.resultRowInfo.openWindow == NULL) { goto _error; } } initResultRowInfo(&pIntervalInfo->binfo.resultRowInfo); setOperatorInfo(pOperator, "TimeMergeIntervalAggOperator", QUERY_NODE_PHYSICAL_PLAN_MERGE_INTERVAL, false, OP_NOT_OPENED, pMergeIntervalInfo, pTaskInfo); pOperator->fpSet = createOperatorFpSet(optrDummyOpenFn, doMergeIntervalAgg, NULL, destroyMergeIntervalOperatorInfo, optrDefaultBufFn, NULL); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: if (pMergeIntervalInfo != NULL) { destroyMergeIntervalOperatorInfo(pMergeIntervalInfo); } taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } static SSDataBlock* doStreamIntervalAgg(SOperatorInfo* pOperator) { SStreamIntervalOperatorInfo* pInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SExprSupp* pSup = &pOperator->exprSupp; if (pOperator->status == OP_EXEC_DONE) { return NULL; } if (pOperator->status == OP_RES_TO_RETURN) { doBuildDeleteResult(pInfo, pInfo->pDelWins, &pInfo->delIndex, pInfo->pDelRes); if (pInfo->pDelRes->info.rows > 0) { printDataBlock(pInfo->pDelRes, "single interval delete"); return pInfo->pDelRes; } doBuildStreamIntervalResult(pOperator, pInfo->pState, pInfo->binfo.pRes, &pInfo->groupResInfo); if (pInfo->binfo.pRes->info.rows > 0) { printDataBlock(pInfo->binfo.pRes, "single interval"); return pInfo->binfo.pRes; } deleteIntervalDiscBuf(pInfo->pState, NULL, pInfo->twAggSup.maxTs - pInfo->twAggSup.deleteMark, &pInfo->interval, &pInfo->delKey); setOperatorCompleted(pOperator); streamStateCommit(pTaskInfo->streamInfo.pState); setStreamDataVersion(pTaskInfo, pInfo->dataVersion, pInfo->pState->checkPointId); return NULL; } SOperatorInfo* downstream = pOperator->pDownstream[0]; if (!pInfo->pUpdated) { pInfo->pUpdated = taosArrayInit(4, sizeof(SWinKey)); } if (!pInfo->pUpdatedMap) { _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pUpdatedMap = tSimpleHashInit(1024, hashFn); } while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { qDebug("===stream===return data:single interval. recv datablock num:%" PRIu64, pInfo->numOfDatapack); pInfo->numOfDatapack = 0; break; } pInfo->numOfDatapack++; printDataBlock(pBlock, "single interval recv"); if (pBlock->info.type == STREAM_DELETE_DATA || pBlock->info.type == STREAM_DELETE_RESULT || pBlock->info.type == STREAM_CLEAR) { doDeleteWindows(pOperator, &pInfo->interval, pBlock, pInfo->pDelWins, pInfo->pUpdatedMap); continue; } else if (pBlock->info.type == STREAM_GET_ALL) { getAllIntervalWindow(pInfo->aggSup.pResultRowHashTable, pInfo->pUpdatedMap); continue; } else if (pBlock->info.type == STREAM_CREATE_CHILD_TABLE) { printDataBlock(pBlock, "single interval"); return pBlock; } else { ASSERTS(pBlock->info.type == STREAM_NORMAL || pBlock->info.type == STREAM_INVALID, "invalid SSDataBlock type"); } if (pBlock->info.type == STREAM_NORMAL && pBlock->info.version != 0) { // set input version pTaskInfo->version = pBlock->info.version; } if (pInfo->scalarSupp.pExprInfo != NULL) { SExprSupp* pExprSup = &pInfo->scalarSupp; projectApplyFunctions(pExprSup->pExprInfo, pBlock, pBlock, pExprSup->pCtx, pExprSup->numOfExprs, NULL); } // The timewindow that overlaps the timestamps of the input pBlock need to be recalculated and return to the // caller. Note that all the time window are not close till now. // the pDataBlock are always the same one, no need to call this again setInputDataBlock(pSup, pBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); if (pInfo->invertible) { setInverFunction(pSup->pCtx, pOperator->exprSupp.numOfExprs, pBlock->info.type); } doStreamIntervalAggImpl(pOperator, pBlock, pBlock->info.id.groupId, pInfo->pUpdatedMap); pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.window.ekey); pInfo->twAggSup.minTs = TMIN(pInfo->twAggSup.minTs, pBlock->info.window.skey); } pOperator->status = OP_RES_TO_RETURN; removeDeleteResults(pInfo->pUpdatedMap, pInfo->pDelWins); closeStreamIntervalWindow(pInfo->aggSup.pResultRowHashTable, &pInfo->twAggSup, &pInfo->interval, NULL, pInfo->pUpdatedMap, pInfo->pDelWins, pOperator); void* pIte = NULL; int32_t iter = 0; while ((pIte = tSimpleHashIterate(pInfo->pUpdatedMap, pIte, &iter)) != NULL) { SWinKey* pKey = tSimpleHashGetKey(pIte, NULL); taosArrayPush(pInfo->pUpdated, pKey); } taosArraySort(pInfo->pUpdated, winKeyCmprImpl); initMultiResInfoFromArrayList(&pInfo->groupResInfo, pInfo->pUpdated); pInfo->pUpdated = NULL; blockDataEnsureCapacity(pInfo->binfo.pRes, pOperator->resultInfo.capacity); tSimpleHashCleanup(pInfo->pUpdatedMap); pInfo->pUpdatedMap = NULL; #if 0 char* pBuf = streamStateIntervalDump(pInfo->pState); qDebug("===stream===interval state%s", pBuf); taosMemoryFree(pBuf); #endif doBuildDeleteResult(pInfo, pInfo->pDelWins, &pInfo->delIndex, pInfo->pDelRes); if (pInfo->pDelRes->info.rows > 0) { printDataBlock(pInfo->pDelRes, "single interval delete"); return pInfo->pDelRes; } doBuildStreamIntervalResult(pOperator, pInfo->pState, pInfo->binfo.pRes, &pInfo->groupResInfo); if (pInfo->binfo.pRes->info.rows > 0) { printDataBlock(pInfo->binfo.pRes, "single interval"); return pInfo->binfo.pRes; } return NULL; } SOperatorInfo* createStreamIntervalOperatorInfo(SOperatorInfo* downstream, SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo) { SStreamIntervalOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SStreamIntervalOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } SStreamIntervalPhysiNode* pIntervalPhyNode = (SStreamIntervalPhysiNode*)pPhyNode; int32_t code = TSDB_CODE_SUCCESS; int32_t numOfCols = 0; SExprInfo* pExprInfo = createExprInfo(pIntervalPhyNode->window.pFuncs, NULL, &numOfCols); SSDataBlock* pResBlock = createDataBlockFromDescNode(pPhyNode->pOutputDataBlockDesc); SInterval interval = { .interval = pIntervalPhyNode->interval, .sliding = pIntervalPhyNode->sliding, .intervalUnit = pIntervalPhyNode->intervalUnit, .slidingUnit = pIntervalPhyNode->slidingUnit, .offset = pIntervalPhyNode->offset, .precision = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->node.resType.precision, }; STimeWindowAggSupp twAggSupp = { .waterMark = pIntervalPhyNode->window.watermark, .calTrigger = pIntervalPhyNode->window.triggerType, .maxTs = INT64_MIN, .minTs = INT64_MAX, .deleteMark = getDeleteMark(pIntervalPhyNode), }; ASSERTS(twAggSupp.calTrigger != STREAM_TRIGGER_MAX_DELAY, "trigger type should not be max delay"); pOperator->pTaskInfo = pTaskInfo; pInfo->interval = interval; pInfo->twAggSup = twAggSupp; pInfo->ignoreExpiredData = pIntervalPhyNode->window.igExpired; pInfo->ignoreExpiredDataSaved = false; pInfo->isFinal = false; SExprSupp* pSup = &pOperator->exprSupp; initBasicInfo(&pInfo->binfo, pResBlock); initStreamFunciton(pSup->pCtx, pSup->numOfExprs); initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); pInfo->primaryTsIndex = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->slotId; initResultSizeInfo(&pOperator->resultInfo, 4096); size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; code = initAggSup(pSup, &pInfo->aggSup, pExprInfo, numOfCols, keyBufSize, pTaskInfo->id.str, pTaskInfo->streamInfo.pState); if (code != TSDB_CODE_SUCCESS) { goto _error; } if (pIntervalPhyNode->window.pExprs != NULL) { int32_t numOfScalar = 0; SExprInfo* pScalarExprInfo = createExprInfo(pIntervalPhyNode->window.pExprs, NULL, &numOfScalar); code = initExprSupp(&pInfo->scalarSupp, pScalarExprInfo, numOfScalar); if (code != TSDB_CODE_SUCCESS) { goto _error; } } pInfo->invertible = allInvertible(pSup->pCtx, numOfCols); pInfo->invertible = false; pInfo->pDelWins = taosArrayInit(4, sizeof(SWinKey)); pInfo->delIndex = 0; pInfo->pDelRes = createSpecialDataBlock(STREAM_DELETE_RESULT); initResultRowInfo(&pInfo->binfo.resultRowInfo); pInfo->pState = taosMemoryCalloc(1, sizeof(SStreamState)); *(pInfo->pState) = *(pTaskInfo->streamInfo.pState); streamStateSetNumber(pInfo->pState, -1); pInfo->pPhyNode = NULL; // create new child pInfo->pPullDataMap = NULL; pInfo->pPullWins = NULL; // SPullWindowInfo pInfo->pullIndex = 0; pInfo->pPullDataRes = NULL; pInfo->isFinal = false; pInfo->pChildren = NULL; pInfo->delKey.ts = INT64_MAX; pInfo->delKey.groupId = 0; pInfo->numOfDatapack = 0; pInfo->pUpdated = NULL; pInfo->pUpdatedMap = NULL; setOperatorInfo(pOperator, "StreamIntervalOperator", QUERY_NODE_PHYSICAL_PLAN_STREAM_INTERVAL, true, OP_NOT_OPENED, pInfo, pTaskInfo); pOperator->fpSet = createOperatorFpSet(optrDummyOpenFn, doStreamIntervalAgg, NULL, destroyStreamFinalIntervalOperatorInfo, optrDefaultBufFn, NULL); initIntervalDownStream(downstream, pPhyNode->type, &pInfo->aggSup, &pInfo->interval, &pInfo->twAggSup); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyStreamFinalIntervalOperatorInfo(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; }