/* * 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 "function.h" #include "functionMgt.h" #include "tdatablock.h" #include "ttime.h" typedef enum SResultTsInterpType { RESULT_ROW_START_INTERP = 1, RESULT_ROW_END_INTERP = 2, } SResultTsInterpType; static SSDataBlock* doStreamSessionAgg(SOperatorInfo* pOperator); static int64_t* extractTsCol(SSDataBlock* pBlock, const SIntervalAggOperatorInfo* pInfo); static SResultRowPosition addToOpenWindowList(SResultRowInfo* pResultRowInfo, const SResultRow* pResult); static void doCloseWindow(SResultRowInfo* pResultRowInfo, const SIntervalAggOperatorInfo* pInfo, SResultRow* pResult); /* * There are two cases to handle: * * 1. Query range is not set yet (queryRangeSet = 0). we need to set the query range info, including * pQueryAttr->lastKey, pQueryAttr->window.skey, and pQueryAttr->eKey. * 2. Query range is set and query is in progress. There may be another result with the same query ranges to be * merged during merge stage. In this case, we need the pTableQueryInfo->lastResRows to decide if there * is a previous result generated or not. */ static void setIntervalQueryRange(STableQueryInfo* pTableQueryInfo, TSKEY key, STimeWindow* pQRange) { // do nothing } static TSKEY getStartTsKey(STimeWindow* win, const TSKEY* tsCols) { return tsCols == NULL ? win->skey : tsCols[0]; } static void getInitialStartTimeWindow(SInterval* pInterval, int32_t precision, TSKEY ts, STimeWindow* w, bool ascQuery) { if (ascQuery) { getAlignQueryTimeWindow(pInterval, precision, ts, w); } else { // the start position of the first time window in the endpoint that spreads beyond the queried last timestamp getAlignQueryTimeWindow(pInterval, precision, ts, w); int64_t key = w->skey; while (key < ts) { // moving towards end key = taosTimeAdd(key, pInterval->sliding, pInterval->slidingUnit, precision); if (key >= ts) { break; } w->skey = key; } } } // get the correct time window according to the handled timestamp STimeWindow getActiveTimeWindow(SDiskbasedBuf* pBuf, SResultRowInfo* pResultRowInfo, int64_t ts, SInterval* pInterval, int32_t precision, STimeWindow* win) { STimeWindow w = {0}; if (pResultRowInfo->cur.pageId == -1) { // the first window, from the previous stored value getInitialStartTimeWindow(pInterval, precision, ts, &w, true); w.ekey = taosTimeAdd(w.skey, pInterval->interval, pInterval->intervalUnit, precision) - 1; } else { w = getResultRowByPos(pBuf, &pResultRowInfo->cur)->win; } if (w.skey > ts || w.ekey < ts) { if (pInterval->intervalUnit == 'n' || pInterval->intervalUnit == 'y') { w.skey = taosTimeTruncate(ts, pInterval, precision); w.ekey = taosTimeAdd(w.skey, pInterval->interval, pInterval->intervalUnit, precision) - 1; } else { int64_t st = w.skey; if (st > ts) { st -= ((st - ts + pInterval->sliding - 1) / pInterval->sliding) * pInterval->sliding; } int64_t et = st + pInterval->interval - 1; if (et < ts) { st += ((ts - et + pInterval->sliding - 1) / pInterval->sliding) * pInterval->sliding; } w.skey = st; w.ekey = taosTimeAdd(w.skey, pInterval->interval, pInterval->intervalUnit, precision) - 1; } } return w; } static int32_t setTimeWindowOutputBuf(SResultRowInfo* pResultRowInfo, STimeWindow* win, bool masterscan, SResultRow** pResult, int64_t tableGroupId, SqlFunctionCtx* pCtx, int32_t numOfOutput, int32_t* rowCellInfoOffset, SAggSupporter* pAggSup, SExecTaskInfo* pTaskInfo) { assert(win->skey <= win->ekey); SResultRow* pResultRow = doSetResultOutBufByKey(pAggSup->pResultBuf, pResultRowInfo, (char*)&win->skey, TSDB_KEYSIZE, masterscan, tableGroupId, pTaskInfo, true, pAggSup); if (pResultRow == NULL) { *pResult = NULL; return TSDB_CODE_SUCCESS; } // set time window for current result pResultRow->win = (*win); *pResult = pResultRow; setResultRowInitCtx(pResultRow, pCtx, numOfOutput, rowCellInfoOffset); 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) { pRowSup->win.ekey = ts; pRowSup->prevTs = ts; pRowSup->numOfRows += 1; } static void doKeepNewWindowStartInfo(SWindowRowsSup* pRowSup, const int64_t* tsList, int32_t rowIndex) { pRowSup->startRowIndex = rowIndex; pRowSup->numOfRows = 0; pRowSup->win.skey = tsList[rowIndex]; } static FORCE_INLINE int32_t getForwardStepsInBlock(int32_t numOfRows, __block_search_fn_t searchFn, TSKEY ekey, int16_t pos, int16_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; if (pData[end + pos] == ekey) { forwardRows += 1; } } } else { int32_t end = searchFn((char*)&pData[pos], numOfRows - pos, ekey, order); if (end >= 0) { forwardRows = end; if (pData[end + pos] == ekey) { forwardRows += 1; } } // 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) * 1000L, 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) * 1000L, TSDB_TIME_PRECISION_MILLI, precision); tw->ekey -= 1; } void doTimeWindowInterpolation(SIntervalAggOperatorInfo* pInfo, int32_t numOfExprs, SArray* pDataBlock, TSKEY prevTs, int32_t prevRowIndex, TSKEY curTs, int32_t curRowIndex, TSKEY windowKey, int32_t type) { SqlFunctionCtx* pCtx = pInfo->binfo.pCtx; int32_t index = 1; for (int32_t k = 0; k < numOfExprs; ++k) { // todo use flag instead of function name if (strcmp(pCtx[k].pExpr->pExpr->_function.functionName, "twa") != 0) { pCtx[k].start.key = INT64_MIN; continue; } // if (functionId != FUNCTION_TWA && functionId != FUNCTION_INTERP) { // pCtx[k].start.key = INT64_MIN; // continue; // } SFunctParam* pParam = &pCtx[k].param[0]; SColumnInfoData* pColInfo = taosArrayGet(pDataBlock, pParam->pCol->slotId); ASSERT(pColInfo->info.colId == pParam->pCol->colId && curTs != windowKey); double v1 = 0, v2 = 0, v = 0; if (prevRowIndex == -1) { SGroupKeys* p = taosArrayGet(pInfo->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, SqlFunctionCtx* pCtx, int32_t numOfExprs, int32_t pos, SSDataBlock* pBlock, const TSKEY* tsCols, STimeWindow* win) { bool ascQuery = (pInfo->order == 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(pCtx, numOfExprs, RESULT_ROW_START_INTERP); return true; } // it is the first time window, no need to do interpolation if (pTsKey->isNull && pos == 0) { setNotInterpoWindowKey(pCtx, numOfExprs, RESULT_ROW_START_INTERP); } else { TSKEY prevTs = ((pos == 0) ? lastTs : tsCols[pos - 1]); doTimeWindowInterpolation(pInfo, numOfExprs, pBlock->pDataBlock, prevTs, pos - 1, curTs, pos, key, RESULT_ROW_START_INTERP); } return true; } static bool setTimeWindowInterpolationEndTs(SIntervalAggOperatorInfo* pInfo, SqlFunctionCtx* pCtx, int32_t numOfExprs, int32_t endRowIndex, SArray* pDataBlock, const TSKEY* tsCols, TSKEY blockEkey, STimeWindow* win) { int32_t order = pInfo->order; 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(pCtx, numOfExprs, RESULT_ROW_END_INTERP); return false; } // there is actual end point of current time window, no interpolation needs if (key == actualEndKey) { setNotInterpoWindowKey(pCtx, numOfExprs, RESULT_ROW_END_INTERP); return true; } int32_t nextRowIndex = endRowIndex + 1; assert(nextRowIndex >= 0); TSKEY nextKey = tsCols[nextRowIndex]; doTimeWindowInterpolation(pInfo, numOfExprs, pDataBlock, actualEndKey, endRowIndex, nextKey, nextRowIndex, key, RESULT_ROW_END_INTERP); return true; } 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; } 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, int32_t numOfExprs, SqlFunctionCtx* pCtx, SResultRow* pResult, STimeWindow* win, int32_t startPos, int32_t forwardRows) { 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, pCtx, numOfExprs, startPos, pBlock, tsCols, win); if (interp) { setResultRowInterpo(pResult, RESULT_ROW_START_INTERP); } } else { setNotInterpoWindowKey(pCtx, 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->order == TSDB_ORDER_ASC) ? pBlock->info.window.ekey : pBlock->info.window.skey; bool interp = setTimeWindowInterpolationEndTs(pInfo, pCtx, numOfExprs, endRowIndex, pBlock->pDataBlock, tsCols, endKey, win); if (interp) { setResultRowInterpo(pResult, RESULT_ROW_END_INTERP); } } else { setNotInterpoWindowKey(pCtx, 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; int32_t startPos = 0; int32_t numOfOutput = pOperatorInfo->numOfExprs; uint64_t groupId = pBlock->info.groupId; SResultRow* pResult = NULL; while (1) { SListNode* pn = tdListGetHead(pResultRowInfo->openWindow); SResultRowPosition* p1 = (SResultRowPosition*)pn->data; if (p->pageId == p1->pageId && p->offset == p1->offset) { break; } SResultRow* pr = getResultRowByPos(pInfo->aggSup.pResultBuf, p1); 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)); tdListPopHead(pResultRowInfo->openWindow); continue; } STimeWindow w = pr->win; int32_t ret = setTimeWindowOutputBuf(pResultRowInfo, &w, (scanFlag == MAIN_SCAN), &pResult, groupId, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } ASSERT(!isResultRowInterpolated(pResult, RESULT_ROW_END_INTERP)); SGroupKeys* pTsKey = taosArrayGet(pInfo->pPrevValues, 0); int64_t prevTs = *(int64_t*)pTsKey->pData; doTimeWindowInterpolation(pInfo, numOfOutput, pBlock->pDataBlock, prevTs, -1, tsCols[startPos], startPos, w.ekey, RESULT_ROW_END_INTERP); setResultRowInterpo(pResult, RESULT_ROW_END_INTERP); setNotInterpoWindowKey(pInfo->binfo.pCtx, numOfExprs, RESULT_ROW_START_INTERP); doApplyFunctions(pTaskInfo, pInfo->binfo.pCtx, &w, &pInfo->twAggSup.timeWindowData, startPos, 0, tsCols, pBlock->info.rows, numOfExprs, pInfo->order); if (isResultRowInterpolated(pResult, RESULT_ROW_END_INTERP)) { closeResultRow(pr); tdListPopHead(pResultRowInfo->openWindow); } else { // the remains are can not be closed yet. break; } } } 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; } int64_t getReskey(void* data, int32_t index) { SArray* res = (SArray*)data; SResKeyPos* pos = taosArrayGetP(res, index); return *(int64_t*)pos->key; } static int32_t saveResult(int64_t ts, int32_t pageId, int32_t offset, uint64_t groupId, SArray* pUpdated) { int32_t size = taosArrayGetSize(pUpdated); int32_t index = binarySearch(pUpdated, size, ts, TSDB_ORDER_DESC, getReskey); if (index == -1) { index = 0; } else { TSKEY resTs = getReskey(pUpdated, index); if (resTs < ts) { index++; } else { return TSDB_CODE_SUCCESS; } } SResKeyPos* newPos = taosMemoryMalloc(sizeof(SResKeyPos) + sizeof(uint64_t)); if (newPos == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } newPos->groupId = groupId; newPos->pos = (SResultRowPosition){.pageId = pageId, .offset = offset}; *(int64_t*)newPos->key = ts; if (taosArrayInsert(pUpdated, index, &newPos) == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } return TSDB_CODE_SUCCESS; } static int32_t saveResultRow(SResultRow* result, uint64_t groupId, SArray* pUpdated) { return saveResult(result->win.skey, result->pageId, result->offset, groupId, pUpdated); } static void removeResult(SArray* pUpdated, TSKEY key) { int32_t size = taosArrayGetSize(pUpdated); int32_t index = binarySearch(pUpdated, size, key, TSDB_ORDER_DESC, getReskey); if (index >= 0 && key == getReskey(pUpdated, index)) { taosArrayRemove(pUpdated, index); } } static void removeResults(SArray* pWins, SArray* pUpdated) { int32_t size = taosArrayGetSize(pWins); for (int32_t i = 0; i < size; i++) { STimeWindow* pW = taosArrayGet(pWins, i); removeResult(pUpdated, pW->skey); } } static void hashIntervalAgg(SOperatorInfo* pOperatorInfo, SResultRowInfo* pResultRowInfo, SSDataBlock* pBlock, int32_t scanFlag, SArray* pUpdated) { SIntervalAggOperatorInfo* pInfo = (SIntervalAggOperatorInfo*)pOperatorInfo->info; SExecTaskInfo* pTaskInfo = pOperatorInfo->pTaskInfo; int32_t startPos = 0; int32_t numOfOutput = pOperatorInfo->numOfExprs; int64_t* tsCols = extractTsCol(pBlock, pInfo); uint64_t tableGroupId = pBlock->info.groupId; bool ascScan = (pInfo->order == TSDB_ORDER_ASC); TSKEY ts = getStartTsKey(&pBlock->info.window, tsCols); SResultRow* pResult = NULL; STimeWindow win = getActiveTimeWindow(pInfo->aggSup.pResultBuf, pResultRowInfo, ts, &pInfo->interval, pInfo->interval.precision, &pInfo->win); int32_t ret = setTimeWindowOutputBuf(pResultRowInfo, &win, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS || pResult == NULL) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } if (pInfo->execModel == OPTR_EXEC_MODEL_STREAM) { if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_AT_ONCE) { saveResultRow(pResult, tableGroupId, pUpdated); } } TSKEY ekey = ascScan ? win.ekey : win.skey; int32_t forwardRows = getNumOfRowsInTimeWindow(&pBlock->info, tsCols, startPos, ekey, binarySearchForKey, NULL, pInfo->order); ASSERT(forwardRows > 0); // prev time window not interpolation yet. if (pInfo->timeWindowInterpo) { SResultRowPosition pos = addToOpenWindowList(pResultRowInfo, pResult); doInterpUnclosedTimeWindow(pOperatorInfo, numOfOutput, pResultRowInfo, pBlock, scanFlag, tsCols, &pos); // restore current time window ret = setTimeWindowOutputBuf(pResultRowInfo, &win, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } // window start key interpolation doWindowBorderInterpolation(pInfo, pBlock, numOfOutput, pInfo->binfo.pCtx, pResult, &win, startPos, forwardRows); } updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &win, true); doApplyFunctions(pTaskInfo, pInfo->binfo.pCtx, &win, &pInfo->twAggSup.timeWindowData, startPos, forwardRows, tsCols, pBlock->info.rows, numOfOutput, pInfo->order); 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->order); if (startPos < 0) { break; } // null data, failed to allocate more memory buffer int32_t code = setTimeWindowOutputBuf(pResultRowInfo, &nextWin, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } if (pInfo->execModel == OPTR_EXEC_MODEL_STREAM) { if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_AT_ONCE) { saveResultRow(pResult, tableGroupId, pUpdated); } } ekey = ascScan ? nextWin.ekey : nextWin.skey; forwardRows = getNumOfRowsInTimeWindow(&pBlock->info, tsCols, startPos, ekey, binarySearchForKey, NULL, pInfo->order); // window start(end) key interpolation doWindowBorderInterpolation(pInfo, pBlock, numOfOutput, pInfo->binfo.pCtx, pResult, &nextWin, startPos, forwardRows); updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &nextWin, true); doApplyFunctions(pTaskInfo, pInfo->binfo.pCtx, &nextWin, &pInfo->twAggSup.timeWindowData, startPos, forwardRows, tsCols, pBlock->info.rows, numOfOutput, pInfo->order); 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); tdListPopHead(pResultRowInfo->openWindow); } } SResultRowPosition addToOpenWindowList(SResultRowInfo* pResultRowInfo, const SResultRow* pResult) { SResultRowPosition pos = (SResultRowPosition){.pageId = pResult->pageId, .offset = pResult->offset}; SListNode* pn = tdListGetTail(pResultRowInfo->openWindow); if (pn == NULL) { tdListAppend(pResultRowInfo->openWindow, &pos); return pos; } SResultRowPosition* px = (SResultRowPosition*)pn->data; if (px->pageId != pos.pageId || px->offset != pos.offset) { tdListAppend(pResultRowInfo->openWindow, &pos); } return pos; } int64_t* extractTsCol(SSDataBlock* pBlock, const SIntervalAggOperatorInfo* pInfo) { TSKEY* tsCols = NULL; if (pBlock->pDataBlock != NULL) { SColumnInfoData* pColDataInfo = taosArrayGet(pBlock->pDataBlock, pInfo->primaryTsIndex); tsCols = (int64_t*)pColDataInfo->pData; if (tsCols != NULL) { 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; SIntervalAggOperatorInfo* pInfo = pOperator->info; int32_t scanFlag = MAIN_SCAN; int64_t st = taosGetTimestampUs(); SOperatorInfo* downstream = pOperator->pDownstream[0]; while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { break; } getTableScanInfo(pOperator, &pInfo->order, &scanFlag); // the pDataBlock are always the same one, no need to call this again setInputDataBlock(pOperator, pInfo->binfo.pCtx, pBlock, pInfo->order, scanFlag, true); STableQueryInfo* pTableQueryInfo = pInfo->pCurrent; setIntervalQueryRange(pTableQueryInfo, pBlock->info.window.skey, &pTaskInfo->window); hashIntervalAgg(pOperator, &pInfo->binfo.resultRowInfo, pBlock, scanFlag, NULL); #if 0 // test for encode/decode result info if(pOperator->fpSet.encodeResultRow){ char *result = NULL; int32_t length = 0; SAggSupporter *pSup = &pInfo->aggSup; pOperator->fpSet.encodeResultRow(pOperator, &result, &length); taosHashClear(pSup->pResultRowHashTable); pInfo->binfo.resultRowInfo.size = 0; pOperator->fpSet.decodeResultRow(pOperator, result); if(result){ taosMemoryFree(result); } } #endif } closeAllResultRows(&pInfo->binfo.resultRowInfo); initGroupedResultInfo(&pInfo->groupResInfo, pInfo->aggSup.pResultRowHashTable, pInfo->order); 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 strncmp(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; SColumnInfoData* pStateColInfoData = taosArrayGet(pBlock->pDataBlock, pInfo->stateCol.slotId); int64_t gid = pBlock->info.groupId; bool masterScan = true; int32_t numOfOutput = pOperator->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 (!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); doKeepTuple(pRowSup, tsList[j]); } else if (compareVal(val, &pInfo->stateKey)) { doKeepTuple(pRowSup, tsList[j]); 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, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { // null data, too many state code longjmp(pTaskInfo->env, TSDB_CODE_QRY_APP_ERROR); } updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &window, false); doApplyFunctions(pTaskInfo, pInfo->binfo.pCtx, &window, &pInfo->twAggSup.timeWindowData, pRowSup->startRowIndex, pRowSup->numOfRows, NULL, pBlock->info.rows, numOfOutput, TSDB_ORDER_ASC); // here we start a new session window doKeepNewWindowStartInfo(pRowSup, tsList, j); doKeepTuple(pRowSup, tsList[j]); // 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, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { // null data, too many state code longjmp(pTaskInfo->env, TSDB_CODE_QRY_APP_ERROR); } updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pRowSup->win, false); doApplyFunctions(pTaskInfo, pInfo->binfo.pCtx, &pRowSup->win, &pInfo->twAggSup.timeWindowData, pRowSup->startRowIndex, pRowSup->numOfRows, NULL, pBlock->info.rows, numOfOutput, TSDB_ORDER_ASC); } 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; if (pOperator->status == OP_RES_TO_RETURN) { doBuildResultDatablock(pOperator, pBInfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); if (pBInfo->pRes->info.rows == 0 || !hashRemainDataInGroupInfo(&pInfo->groupResInfo)) { doSetOperatorCompleted(pOperator); return NULL; } return pBInfo->pRes; } 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(pOperator, pBInfo->pCtx, pBlock, order, MAIN_SCAN, true); blockDataUpdateTsWindow(pBlock, pInfo->tsSlotId); doStateWindowAggImpl(pOperator, pInfo, pBlock); } pOperator->cost.openCost = (taosGetTimestampUs() - st) / 1000.0; pOperator->status = OP_RES_TO_RETURN; closeAllResultRows(&pBInfo->resultRowInfo); initGroupedResultInfo(&pInfo->groupResInfo, pInfo->aggSup.pResultRowHashTable, TSDB_ORDER_ASC); blockDataEnsureCapacity(pBInfo->pRes, pOperator->resultInfo.capacity); doBuildResultDatablock(pOperator, pBInfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); if (pBInfo->pRes->info.rows == 0 || !hashRemainDataInGroupInfo(&pInfo->groupResInfo)) { doSetOperatorCompleted(pOperator); } size_t rows = pBInfo->pRes->info.rows; pOperator->resultInfo.totalRows += rows; return (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; if (pInfo->execModel == OPTR_EXEC_MODEL_STREAM) { return pOperator->fpSet.getStreamResFn(pOperator); } else { pTaskInfo->code = pOperator->fpSet._openFn(pOperator); if (pTaskInfo->code != TSDB_CODE_SUCCESS) { return NULL; } blockDataEnsureCapacity(pBlock, pOperator->resultInfo.capacity); doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); if (pBlock->info.rows == 0 || !hashRemainDataInGroupInfo(&pInfo->groupResInfo)) { doSetOperatorCompleted(pOperator); } size_t rows = pBlock->info.rows; pOperator->resultInfo.totalRows += rows; return (rows == 0) ? NULL : pBlock; } } // todo merged with the build group result. static void finalizeUpdatedResult(int32_t numOfOutput, SDiskbasedBuf* pBuf, SArray* pUpdateList, int32_t* rowCellInfoOffset) { size_t num = taosArrayGetSize(pUpdateList); for (int32_t i = 0; i < num; ++i) { SResKeyPos* pPos = taosArrayGetP(pUpdateList, i); SFilePage* bufPage = getBufPage(pBuf, pPos->pos.pageId); SResultRow* pRow = (SResultRow*)((char*)bufPage + pPos->pos.offset); for (int32_t j = 0; j < numOfOutput; ++j) { SResultRowEntryInfo* pEntry = getResultCell(pRow, j, rowCellInfoOffset); if (pRow->numOfRows < pEntry->numOfRes) { pRow->numOfRows = pEntry->numOfRes; } } releaseBufPage(pBuf, bufPage); } } 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)); } } } void doClearWindowImpl(SResultRowPosition* p1, SDiskbasedBuf* pResultBuf, SOptrBasicInfo* pBinfo, int32_t numOfOutput) { SResultRow* pResult = getResultRowByPos(pResultBuf, p1); SqlFunctionCtx* pCtx = pBinfo->pCtx; for (int32_t i = 0; i < numOfOutput; ++i) { pCtx[i].resultInfo = getResultCell(pResult, i, pBinfo->rowCellInfoOffset); 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); } } } void doClearWindow(SAggSupporter* pSup, SOptrBasicInfo* pBinfo, char* pData, int16_t bytes, uint64_t groupId, int32_t numOfOutput) { SET_RES_WINDOW_KEY(pSup->keyBuf, pData, bytes, groupId); SResultRowPosition* p1 = (SResultRowPosition*)taosHashGet(pSup->pResultRowHashTable, pSup->keyBuf, GET_RES_WINDOW_KEY_LEN(bytes)); if (!p1) { // window has been closed return; } doClearWindowImpl(p1, pSup->pResultBuf, pBinfo, numOfOutput); } static void doClearWindows(SAggSupporter* pSup, SOptrBasicInfo* pBinfo, SInterval* pInterval, int32_t tsIndex, int32_t numOfOutput, SSDataBlock* pBlock, SArray* pUpWins) { SColumnInfoData* pColDataInfo = taosArrayGet(pBlock->pDataBlock, tsIndex); TSKEY* tsCols = (TSKEY*)pColDataInfo->pData; int32_t step = 0; for (int32_t i = 0; i < pBlock->info.rows; i += step) { SResultRowInfo dumyInfo; dumyInfo.cur.pageId = -1; STimeWindow win = getActiveTimeWindow(NULL, &dumyInfo, tsCols[i], pInterval, pInterval->precision, NULL); step = getNumOfRowsInTimeWindow(&pBlock->info, tsCols, i, win.ekey, binarySearchForKey, NULL, TSDB_ORDER_ASC); doClearWindow(pSup, pBinfo, (char*)&win.skey, sizeof(TKEY), pBlock->info.groupId, numOfOutput); if (pUpWins) { taosArrayPush(pUpWins, &win); } } } static int32_t getAllIntervalWindow(SHashObj* pHashMap, SArray* resWins) { void* pIte = NULL; size_t keyLen = 0; while ((pIte = taosHashIterate(pHashMap, pIte)) != NULL) { void* key = taosHashGetKey(pIte, &keyLen); uint64_t groupId = *(uint64_t*)key; ASSERT(keyLen == GET_RES_WINDOW_KEY_LEN(sizeof(TSKEY))); TSKEY ts = *(int64_t*)((char*)key + sizeof(uint64_t)); SResultRowPosition* pPos = (SResultRowPosition*)pIte; int32_t code = saveResult(ts, pPos->pageId, pPos->offset, groupId, resWins); if (code != TSDB_CODE_SUCCESS) { return code; } } return TSDB_CODE_SUCCESS; } static int32_t closeIntervalWindow(SHashObj* pHashMap, STimeWindowAggSupp* pSup, SInterval* pInterval, SArray* closeWins) { void* pIte = NULL; size_t keyLen = 0; while ((pIte = taosHashIterate(pHashMap, pIte)) != NULL) { void* key = taosHashGetKey(pIte, &keyLen); uint64_t groupId = *(uint64_t*)key; ASSERT(keyLen == GET_RES_WINDOW_KEY_LEN(sizeof(TSKEY))); TSKEY ts = *(int64_t*)((char*)key + sizeof(uint64_t)); SResultRowInfo dumyInfo; dumyInfo.cur.pageId = -1; STimeWindow win = getActiveTimeWindow(NULL, &dumyInfo, ts, pInterval, pInterval->precision, NULL); if (win.ekey < pSup->maxTs - pSup->waterMark) { char keyBuf[GET_RES_WINDOW_KEY_LEN(sizeof(TSKEY))]; SET_RES_WINDOW_KEY(keyBuf, &ts, sizeof(TSKEY), groupId); taosHashRemove(pHashMap, keyBuf, keyLen); SResultRowPosition* pPos = (SResultRowPosition*)pIte; if (pSup->calTrigger == STREAM_TRIGGER_WINDOW_CLOSE) { int32_t code = saveResult(ts, pPos->pageId, pPos->offset, groupId, closeWins); if (code != TSDB_CODE_SUCCESS) { return code; } } } } return TSDB_CODE_SUCCESS; } static SSDataBlock* doStreamIntervalAgg(SOperatorInfo* pOperator) { SIntervalAggOperatorInfo* pInfo = pOperator->info; SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; pInfo->order = TSDB_ORDER_ASC; if (pOperator->status == OP_EXEC_DONE) { return NULL; } if (pOperator->status == OP_RES_TO_RETURN) { doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); if (pInfo->binfo.pRes->info.rows == 0 || !hashRemainDataInGroupInfo(&pInfo->groupResInfo)) { pOperator->status = OP_EXEC_DONE; } return pInfo->binfo.pRes->info.rows == 0 ? NULL : pInfo->binfo.pRes; } SOperatorInfo* downstream = pOperator->pDownstream[0]; SArray* pUpdated = taosArrayInit(4, POINTER_BYTES); while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { break; } // 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(pOperator, pInfo->binfo.pCtx, pBlock, pInfo->order, MAIN_SCAN, true); if (pInfo->invertible) { setInverFunction(pInfo->binfo.pCtx, pOperator->numOfExprs, pBlock->info.type); } if (pBlock->info.type == STREAM_REPROCESS) { doClearWindows(&pInfo->aggSup, &pInfo->binfo, &pInfo->interval, 0, pOperator->numOfExprs, pBlock, NULL); qDebug("%s clear existed time window results for updates checked", GET_TASKID(pTaskInfo)); continue; } else if (pBlock->info.type == STREAM_GET_ALL && pInfo->twAggSup.calTrigger == STREAM_TRIGGER_MAX_DELAY) { getAllIntervalWindow(pInfo->aggSup.pResultRowHashTable, pUpdated); continue; } pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.window.ekey); hashIntervalAgg(pOperator, &pInfo->binfo.resultRowInfo, pBlock, MAIN_SCAN, pUpdated); } closeIntervalWindow(pInfo->aggSup.pResultRowHashTable, &pInfo->twAggSup, &pInfo->interval, pUpdated); finalizeUpdatedResult(pOperator->numOfExprs, pInfo->aggSup.pResultBuf, pUpdated, pInfo->binfo.rowCellInfoOffset); initMultiResInfoFromArrayList(&pInfo->groupResInfo, pUpdated); blockDataEnsureCapacity(pInfo->binfo.pRes, pOperator->resultInfo.capacity); doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); pOperator->status = OP_RES_TO_RETURN; return pInfo->binfo.pRes->info.rows == 0 ? NULL : pInfo->binfo.pRes; } static void destroyStateWindowOperatorInfo(void* param, int32_t numOfOutput) { SStateWindowOperatorInfo* pInfo = (SStateWindowOperatorInfo*)param; doDestroyBasicInfo(&pInfo->binfo, numOfOutput); taosMemoryFreeClear(pInfo->stateKey.pData); } void destroyIntervalOperatorInfo(void* param, int32_t numOfOutput) { SIntervalAggOperatorInfo* pInfo = (SIntervalAggOperatorInfo*)param; doDestroyBasicInfo(&pInfo->binfo, numOfOutput); cleanupAggSup(&pInfo->aggSup); } void destroyStreamFinalIntervalOperatorInfo(void* param, int32_t numOfOutput) { SStreamFinalIntervalOperatorInfo* pInfo = (SStreamFinalIntervalOperatorInfo*)param; doDestroyBasicInfo(&pInfo->binfo, numOfOutput); cleanupAggSup(&pInfo->aggSup); if (pInfo->pChildren) { int32_t size = taosArrayGetSize(pInfo->pChildren); for (int32_t i = 0; i < size; i++) { SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, i); destroyIntervalOperatorInfo(pChildOp->info, numOfOutput); taosMemoryFreeClear(pChildOp->info); taosMemoryFreeClear(pChildOp); } } nodesDestroyNode(pInfo->pPhyNode); } static bool allInvertible(SqlFunctionCtx* pFCtx, int32_t numOfCols) { for (int32_t i = 0; i < numOfCols; i++) { if (!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; 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 = {0}; 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 (strcmp(pExpr->pExpr->_function.functionName, "twa") == 0) { SFunctParam* pParam = &pExpr->base.pParam[0]; SColumn c = *pParam->pCol; taosArrayPush(pInfo->pInterpCols, &c); needed = true; 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 increaseTs(SqlFunctionCtx* pCtx) { if (pCtx[0].pExpr->pExpr->_function.pFunctNode->funcType == FUNCTION_TYPE_WSTARTTS) { pCtx[0].increase = true; } } SOperatorInfo* createIntervalOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResBlock, SInterval* pInterval, int32_t primaryTsSlotId, STimeWindowAggSupp* pTwAggSupp, SExecTaskInfo* pTaskInfo, bool isStream) { SIntervalAggOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SIntervalAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } pInfo->win = pTaskInfo->window; pInfo->order = TSDB_ORDER_ASC; pInfo->interval = *pInterval; pInfo->execModel = pTaskInfo->execModel; pInfo->twAggSup = *pTwAggSupp; pInfo->primaryTsIndex = primaryTsSlotId; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(pOperator, 4096); int32_t code = initAggInfo(&pInfo->binfo, &pInfo->aggSup, pExprInfo, numOfCols, pResBlock, keyBufSize, pTaskInfo->id.str); if (isStream) { ASSERT(numOfCols > 0); increaseTs(pInfo->binfo.pCtx); } initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pInfo->win); pInfo->invertible = allInvertible(pInfo->binfo.pCtx, numOfCols); pInfo->invertible = false; // Todo(liuyao): Dependent TSDB API pInfo->timeWindowInterpo = timeWindowinterpNeeded(pInfo->binfo.pCtx, numOfCols, pInfo); if (pInfo->timeWindowInterpo) { pInfo->binfo.resultRowInfo.openWindow = tdListNew(sizeof(SResultRowPosition)); } // pInfo->pTableQueryInfo = initTableQueryInfo(pTableGroupInfo); if (code != TSDB_CODE_SUCCESS /* || pInfo->pTableQueryInfo == NULL*/) { goto _error; } initResultRowInfo(&pInfo->binfo.resultRowInfo, (int32_t)1); pOperator->name = "TimeIntervalAggOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_HASH_INTERVAL; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->pExpr = pExprInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->numOfExprs = numOfCols; pOperator->info = pInfo; pOperator->fpSet = createOperatorFpSet(doOpenIntervalAgg, doBuildIntervalResult, doStreamIntervalAgg, NULL, destroyIntervalOperatorInfo, aggEncodeResultRow, aggDecodeResultRow, NULL); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyIntervalOperatorInfo(pInfo, numOfCols); taosMemoryFreeClear(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } SOperatorInfo* createStreamIntervalOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResBlock, SInterval* pInterval, int32_t primaryTsSlotId, STimeWindowAggSupp* pTwAggSupp, SExecTaskInfo* pTaskInfo) { SIntervalAggOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SIntervalAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } pInfo->order = TSDB_ORDER_ASC; pInfo->interval = *pInterval; pInfo->execModel = OPTR_EXEC_MODEL_STREAM; pInfo->win = pTaskInfo->window; pInfo->twAggSup = *pTwAggSupp; pInfo->primaryTsIndex = primaryTsSlotId; int32_t numOfRows = 4096; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(pOperator, numOfRows); int32_t code = initAggInfo(&pInfo->binfo, &pInfo->aggSup, pExprInfo, numOfCols, pResBlock, keyBufSize, pTaskInfo->id.str); initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pInfo->win); if (code != TSDB_CODE_SUCCESS) { goto _error; } initResultRowInfo(&pInfo->binfo.resultRowInfo, (int32_t)1); pOperator->name = "StreamTimeIntervalAggOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_HASH_INTERVAL; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->pExpr = pExprInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->numOfExprs = numOfCols; pOperator->info = pInfo; pOperator->fpSet = createOperatorFpSet(doOpenIntervalAgg, doStreamIntervalAgg, doStreamIntervalAgg, NULL, destroyIntervalOperatorInfo, aggEncodeResultRow, aggDecodeResultRow, NULL); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyIntervalOperatorInfo(pInfo, numOfCols); taosMemoryFreeClear(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } // todo handle multiple tables cases. static void doSessionWindowAggImpl(SOperatorInfo* pOperator, SSessionAggOperatorInfo* pInfo, SSDataBlock* pBlock) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, pInfo->tsSlotId); bool masterScan = true; int32_t numOfOutput = pOperator->numOfExprs; int64_t gid = pBlock->info.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 (pInfo->winSup.prevTs == INT64_MIN) { doKeepNewWindowStartInfo(pRowSup, tsList, j); doKeepTuple(pRowSup, tsList[j]); } else if (tsList[j] - pRowSup->prevTs <= gap && (tsList[j] - pRowSup->prevTs) >= 0) { // The gap is less than the threshold, so it belongs to current session window that has been opened already. doKeepTuple(pRowSup, tsList[j]); 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, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { // null data, too many state code longjmp(pTaskInfo->env, TSDB_CODE_QRY_APP_ERROR); } // pInfo->numOfRows data belong to the current session window updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &window, false); doApplyFunctions(pTaskInfo, pInfo->binfo.pCtx, &window, &pInfo->twAggSup.timeWindowData, pRowSup->startRowIndex, pRowSup->numOfRows, NULL, pBlock->info.rows, numOfOutput, TSDB_ORDER_ASC); // here we start a new session window doKeepNewWindowStartInfo(pRowSup, tsList, j); doKeepTuple(pRowSup, tsList[j]); } } SResultRow* pResult = NULL; pRowSup->win.ekey = tsList[pBlock->info.rows - 1]; int32_t ret = setTimeWindowOutputBuf(&pInfo->binfo.resultRowInfo, &pRowSup->win, masterScan, &pResult, gid, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { // null data, too many state code longjmp(pTaskInfo->env, TSDB_CODE_QRY_APP_ERROR); } updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pRowSup->win, false); doApplyFunctions(pTaskInfo, pInfo->binfo.pCtx, &pRowSup->win, &pInfo->twAggSup.timeWindowData, pRowSup->startRowIndex, pRowSup->numOfRows, NULL, pBlock->info.rows, numOfOutput, TSDB_ORDER_ASC); } static SSDataBlock* doSessionWindowAgg(SOperatorInfo* pOperator) { if (pOperator->status == OP_EXEC_DONE) { return NULL; } SSessionAggOperatorInfo* pInfo = pOperator->info; SOptrBasicInfo* pBInfo = &pInfo->binfo; if (pOperator->status == OP_RES_TO_RETURN) { doBuildResultDatablock(pOperator, pBInfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); if (pBInfo->pRes->info.rows == 0 || !hashRemainDataInGroupInfo(&pInfo->groupResInfo)) { doSetOperatorCompleted(pOperator); return NULL; } return 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(pOperator, pBInfo->pCtx, 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; closeAllResultRows(&pBInfo->resultRowInfo); initGroupedResultInfo(&pInfo->groupResInfo, pInfo->aggSup.pResultRowHashTable, TSDB_ORDER_ASC); blockDataEnsureCapacity(pBInfo->pRes, pOperator->resultInfo.capacity); doBuildResultDatablock(pOperator, pBInfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); if (pBInfo->pRes->info.rows == 0 || !hashRemainDataInGroupInfo(&pInfo->groupResInfo)) { doSetOperatorCompleted(pOperator); } size_t rows = pBInfo->pRes->info.rows; pOperator->resultInfo.totalRows += rows; return (rows == 0) ? NULL : pBInfo->pRes; } static SSDataBlock* doAllIntervalAgg(SOperatorInfo* pOperator) { if (pOperator->status == OP_EXEC_DONE) { return NULL; } STimeSliceOperatorInfo* pSliceInfo = pOperator->info; if (pOperator->status == OP_RES_TO_RETURN) { // doBuildResultDatablock(&pRuntimeEnv->groupResInfo, pRuntimeEnv, pIntervalInfo->pRes); if (pSliceInfo->binfo.pRes->info.rows == 0 || !hashRemainDataInGroupInfo(&pSliceInfo->groupResInfo)) { doSetOperatorCompleted(pOperator); } return pSliceInfo->binfo.pRes; } 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(pOperator, pSliceInfo->binfo.pCtx, pBlock, order, MAIN_SCAN, true); // hashAllIntervalAgg(pOperator, &pSliceInfo->binfo.resultRowInfo, pBlock, 0); } // restore the value pOperator->status = OP_RES_TO_RETURN; closeAllResultRows(&pSliceInfo->binfo.resultRowInfo); setTaskStatus(pOperator->pTaskInfo, TASK_COMPLETED); // finalizeQueryResult(pSliceInfo->binfo.pCtx, pOperator->numOfExprs); // initGroupedResultInfo(&pSliceInfo->groupResInfo, &pSliceInfo->binfo.resultRowInfo); // doBuildResultDatablock(&pRuntimeEnv->groupResInfo, pRuntimeEnv, pSliceInfo->pRes); if (pSliceInfo->binfo.pRes->info.rows == 0 || !hashRemainDataInGroupInfo(&pSliceInfo->groupResInfo)) { pOperator->status = OP_EXEC_DONE; } return pSliceInfo->binfo.pRes->info.rows == 0 ? NULL : pSliceInfo->binfo.pRes; } SOperatorInfo* createTimeSliceOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResultBlock, SExecTaskInfo* pTaskInfo) { STimeSliceOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(STimeSliceOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pOperator == NULL || pInfo == NULL) { goto _error; } initResultRowInfo(&pInfo->binfo.resultRowInfo, 8); pOperator->name = "TimeSliceOperator"; // pOperator->operatorType = OP_AllTimeWindow; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->pExpr = pExprInfo; pOperator->numOfExprs = numOfCols; pOperator->info = pInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doAllIntervalAgg, NULL, NULL, destroyBasicOperatorInfo, NULL, NULL, NULL); int32_t code = appendDownstream(pOperator, &downstream, 1); return pOperator; _error: taosMemoryFree(pInfo); taosMemoryFree(pOperator); pTaskInfo->code = TSDB_CODE_OUT_OF_MEMORY; return NULL; } SOperatorInfo* createStatewindowOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExpr, int32_t numOfCols, SSDataBlock* pResBlock, STimeWindowAggSupp* pTwAggSup, int32_t tsSlotId, SColumn* pStateKeyCol, SExecTaskInfo* pTaskInfo) { SStateWindowOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SStateWindowOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } pInfo->stateCol = *pStateKeyCol; 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; } size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(pOperator, 4096); initAggInfo(&pInfo->binfo, &pInfo->aggSup, pExpr, numOfCols, pResBlock, keyBufSize, pTaskInfo->id.str); initResultRowInfo(&pInfo->binfo.resultRowInfo, 8); pInfo->twAggSup = *pTwAggSup; initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); pInfo->tsSlotId = tsSlotId; pOperator->name = "StateWindowOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_MERGE_STATE; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->pExpr = pExpr; pOperator->numOfExprs = numOfCols; pOperator->pTaskInfo = pTaskInfo; pOperator->info = pInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doStateWindowAgg, NULL, NULL, destroyStateWindowOperatorInfo, aggEncodeResultRow, aggDecodeResultRow, NULL); int32_t code = appendDownstream(pOperator, &downstream, 1); return pOperator; _error: pTaskInfo->code = TSDB_CODE_SUCCESS; return NULL; } void destroySWindowOperatorInfo(void* param, int32_t numOfOutput) { SSessionAggOperatorInfo* pInfo = (SSessionAggOperatorInfo*)param; doDestroyBasicInfo(&pInfo->binfo, numOfOutput); } SOperatorInfo* createSessionAggOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResBlock, int64_t gap, int32_t tsSlotId, STimeWindowAggSupp* pTwAggSupp, 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, 4096); int32_t code = initAggInfo(&pInfo->binfo, &pInfo->aggSup, pExprInfo, numOfCols, pResBlock, keyBufSize, pTaskInfo->id.str); if (code != TSDB_CODE_SUCCESS) { goto _error; } pInfo->twAggSup = *pTwAggSupp; initResultRowInfo(&pInfo->binfo.resultRowInfo, 8); initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); pInfo->tsSlotId = tsSlotId; pInfo->gap = gap; pInfo->binfo.pRes = pResBlock; pInfo->winSup.prevTs = INT64_MIN; pInfo->reptScan = false; pOperator->name = "SessionWindowAggOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_MERGE_SESSION; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->pExpr = pExprInfo; pOperator->numOfExprs = numOfCols; pOperator->info = pInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doSessionWindowAgg, NULL, NULL, destroySWindowOperatorInfo, aggEncodeResultRow, aggDecodeResultRow, NULL); pOperator->pTaskInfo = pTaskInfo; code = appendDownstream(pOperator, &downstream, 1); return pOperator; _error: if (pInfo != NULL) { destroySWindowOperatorInfo(pInfo, numOfCols); } taosMemoryFreeClear(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } static void doHashInterval(SOperatorInfo* pOperatorInfo, SSDataBlock* pSDataBlock, int32_t tableGroupId, SArray* pUpdated) { SStreamFinalIntervalOperatorInfo* pInfo = (SStreamFinalIntervalOperatorInfo*)pOperatorInfo->info; SResultRowInfo* pResultRowInfo = &(pInfo->binfo.resultRowInfo); SExecTaskInfo* pTaskInfo = pOperatorInfo->pTaskInfo; int32_t numOfOutput = pOperatorInfo->numOfExprs; int32_t step = 1; bool ascScan = true; TSKEY* tsCols = NULL; SResultRow* pResult = NULL; int32_t forwardRows = 0; if (pSDataBlock->pDataBlock != NULL) { SColumnInfoData* pColDataInfo = taosArrayGet(pSDataBlock->pDataBlock, pInfo->primaryTsIndex); tsCols = (int64_t*)pColDataInfo->pData; } else { return; } int32_t startPos = ascScan ? 0 : (pSDataBlock->info.rows - 1); TSKEY ts = getStartTsKey(&pSDataBlock->info.window, tsCols); STimeWindow nextWin = getActiveTimeWindow(pInfo->aggSup.pResultBuf, pResultRowInfo, ts, &pInfo->interval, pInfo->interval.precision, NULL); while (1) { int32_t code = setTimeWindowOutputBuf(pResultRowInfo, &nextWin, true, &pResult, tableGroupId, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } SResKeyPos* pos = taosMemoryMalloc(sizeof(SResKeyPos) + sizeof(uint64_t)); pos->groupId = tableGroupId; pos->pos = (SResultRowPosition){.pageId = pResult->pageId, .offset = pResult->offset}; *(int64_t*)pos->key = pResult->win.skey; forwardRows = getNumOfRowsInTimeWindow(&pSDataBlock->info, tsCols, startPos, nextWin.ekey, binarySearchForKey, NULL, TSDB_ORDER_ASC); if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_AT_ONCE && pUpdated) { saveResultRow(pResult, tableGroupId, pUpdated); } // window start(end) key interpolation // doWindowBorderInterpolation(pInfo, pSDataBlock, numOfOutput, pInfo->binfo.pCtx, pResult, &nextWin, startPos, // forwardRows); updateTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &nextWin, true); doApplyFunctions(pTaskInfo, pInfo->binfo.pCtx, &nextWin, &pInfo->twAggSup.timeWindowData, startPos, forwardRows, tsCols, pSDataBlock->info.rows, numOfOutput, TSDB_ORDER_ASC); int32_t prevEndPos = (forwardRows - 1) * step + startPos; ASSERT(pSDataBlock->info.window.skey > 0 && pSDataBlock->info.window.ekey > 0); startPos = getNextQualifiedWindow(&pInfo->interval, &nextWin, &pSDataBlock->info, tsCols, prevEndPos, pInfo->order); if (startPos < 0) { break; } } } bool isFinalInterval(SStreamFinalIntervalOperatorInfo* pInfo) { return pInfo->pChildren != NULL; } void compactFunctions(SqlFunctionCtx* pDestCtx, SqlFunctionCtx* pSourceCtx, int32_t numOfOutput, SExecTaskInfo* pTaskInfo) { for (int32_t k = 0; k < numOfOutput; ++k) { if (fmIsWindowPseudoColumnFunc(pDestCtx[k].functionId)) { continue; } int32_t code = TSDB_CODE_SUCCESS; if (functionNeedToExecute(&pDestCtx[k]) && pDestCtx[k].fpSet.combine != NULL) { code = pDestCtx[k].fpSet.combine(&pDestCtx[k], &pSourceCtx[k]); if (code != TSDB_CODE_SUCCESS) { qError("%s apply functions error, code: %s", GET_TASKID(pTaskInfo), tstrerror(code)); pTaskInfo->code = code; longjmp(pTaskInfo->env, code); } } } } static void rebuildIntervalWindow(SStreamFinalIntervalOperatorInfo* pInfo, SArray* pWinArray, int32_t groupId, int32_t numOfOutput, SExecTaskInfo* pTaskInfo) { int32_t size = taosArrayGetSize(pWinArray); ASSERT(pInfo->pChildren); for (int32_t i = 0; i < size; i++) { STimeWindow* pParentWin = taosArrayGet(pWinArray, i); SResultRow* pCurResult = NULL; setTimeWindowOutputBuf(&pInfo->binfo.resultRowInfo, pParentWin, true, &pCurResult, 0, pInfo->binfo.pCtx, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->aggSup, pTaskInfo); int32_t numOfChildren = taosArrayGetSize(pInfo->pChildren); for (int32_t j = 0; j < numOfChildren; j++) { SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, j); SIntervalAggOperatorInfo* pChInfo = pChildOp->info; SResultRow* pChResult = NULL; setTimeWindowOutputBuf(&pChInfo->binfo.resultRowInfo, pParentWin, true, &pChResult, 0, pChInfo->binfo.pCtx, pChildOp->numOfExprs, pChInfo->binfo.rowCellInfoOffset, &pChInfo->aggSup, pTaskInfo); compactFunctions(pInfo->binfo.pCtx, pChInfo->binfo.pCtx, numOfOutput, pTaskInfo); } } } static void clearStreamIntervalOperator(SStreamFinalIntervalOperatorInfo* pInfo) { taosHashClear(pInfo->aggSup.pResultRowHashTable); clearDiskbasedBuf(pInfo->aggSup.pResultBuf); cleanupResultRowInfo(&pInfo->binfo.resultRowInfo); initResultRowInfo(&pInfo->binfo.resultRowInfo, 1); } static void clearUpdateDataBlock(SSDataBlock* pBlock) { if (pBlock->info.rows <= 0) { return; } blockDataCleanup(pBlock); } static void copyUpdateDataBlock(SSDataBlock* pDest, SSDataBlock* pSource, int32_t tsColIndex) { ASSERT(pDest->info.capacity >= pSource->info.rows); clearUpdateDataBlock(pDest); SColumnInfoData* pDestCol = taosArrayGet(pDest->pDataBlock, 0); SColumnInfoData* pSourceCol = taosArrayGet(pSource->pDataBlock, tsColIndex); // copy timestamp column colDataAssign(pDestCol, pSourceCol, pSource->info.rows); for (int32_t i = 1; i < pDest->info.numOfCols; i++) { SColumnInfoData* pCol = taosArrayGet(pDest->pDataBlock, i); colDataAppendNNULL(pCol, 0, pSource->info.rows); } pDest->info.rows = pSource->info.rows; blockDataUpdateTsWindow(pDest, 0); } static int32_t getChildIndex(SSDataBlock* pBlock) { return pBlock->info.childId; } static SSDataBlock* doStreamFinalIntervalAgg(SOperatorInfo* pOperator) { SStreamFinalIntervalOperatorInfo* pInfo = pOperator->info; SOperatorInfo* downstream = pOperator->pDownstream[0]; SArray* pUpdated = taosArrayInit(4, POINTER_BYTES); if (pOperator->status == OP_EXEC_DONE) { return NULL; } else if (pOperator->status == OP_RES_TO_RETURN) { doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); if (pInfo->binfo.pRes->info.rows == 0) { pOperator->status = OP_EXEC_DONE; if (isFinalInterval(pInfo) || pInfo->pUpdateRes->info.rows == 0) { if (!isFinalInterval(pInfo)) { // semi interval operator clear disk buffer clearStreamIntervalOperator(pInfo); } return NULL; } // process the rest of the data pOperator->status = OP_OPENED; return pInfo->pUpdateRes; } return pInfo->binfo.pRes; } while (1) { SSDataBlock* pBlock = downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { clearUpdateDataBlock(pInfo->pUpdateRes); break; } setInputDataBlock(pOperator, pInfo->binfo.pCtx, pBlock, pInfo->order, MAIN_SCAN, true); if (pBlock->info.type == STREAM_REPROCESS) { SArray* pUpWins = taosArrayInit(8, sizeof(STimeWindow)); doClearWindows(&pInfo->aggSup, &pInfo->binfo, &pInfo->interval, pInfo->primaryTsIndex, pOperator->numOfExprs, pBlock, pUpWins); if (isFinalInterval(pInfo)) { int32_t childIndex = getChildIndex(pBlock); SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, childIndex); SIntervalAggOperatorInfo* pChildInfo = pChildOp->info; doClearWindows(&pChildInfo->aggSup, &pChildInfo->binfo, &pChildInfo->interval, pChildInfo->primaryTsIndex, pChildOp->numOfExprs, pBlock, NULL); rebuildIntervalWindow(pInfo, pUpWins, pInfo->binfo.pRes->info.groupId, pOperator->numOfExprs, pOperator->pTaskInfo); taosArrayDestroy(pUpWins); continue; } removeResults(pUpWins, pUpdated); copyUpdateDataBlock(pInfo->pUpdateRes, pBlock, pInfo->primaryTsIndex); taosArrayDestroy(pUpWins); break; } else if (pBlock->info.type == STREAM_GET_ALL && isFinalInterval(pInfo) && pInfo->twAggSup.calTrigger == STREAM_TRIGGER_MAX_DELAY) { getAllIntervalWindow(pInfo->aggSup.pResultRowHashTable, pUpdated); continue; } if (isFinalInterval(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) { longjmp(pOperator->pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } taosArrayPush(pInfo->pChildren, &pChildOp); } SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, chIndex); SStreamFinalIntervalOperatorInfo* pChInfo = pChildOp->info; setInputDataBlock(pChildOp, pChInfo->binfo.pCtx, pBlock, pChInfo->order, MAIN_SCAN, true); doHashInterval(pChildOp, pBlock, pBlock->info.groupId, NULL); } doHashInterval(pOperator, pBlock, pBlock->info.groupId, pUpdated); pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.window.ekey); } if (isFinalInterval(pInfo)) { closeIntervalWindow(pInfo->aggSup.pResultRowHashTable, &pInfo->twAggSup, &pInfo->interval, pUpdated); } finalizeUpdatedResult(pOperator->numOfExprs, pInfo->aggSup.pResultBuf, pUpdated, pInfo->binfo.rowCellInfoOffset); initMultiResInfoFromArrayList(&pInfo->groupResInfo, pUpdated); blockDataEnsureCapacity(pInfo->binfo.pRes, pOperator->resultInfo.capacity); doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->aggSup.pResultBuf); pOperator->status = OP_RES_TO_RETURN; if (pInfo->binfo.pRes->info.rows == 0) { pOperator->status = OP_EXEC_DONE; if (pInfo->pUpdateRes->info.rows == 0) { return NULL; } // process the rest of the data pOperator->status = OP_OPENED; return pInfo->pUpdateRes; } return pInfo->binfo.pRes; } SOperatorInfo* createStreamFinalIntervalOperatorInfo(SOperatorInfo* downstream, SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo, int32_t numOfChild) { SIntervalPhysiNode* pIntervalPhyNode = (SIntervalPhysiNode*)pPhyNode; SStreamFinalIntervalOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SStreamFinalIntervalOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } pInfo->order = TSDB_ORDER_ASC; 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, }; pInfo->primaryTsIndex = ((SColumnNode*)pIntervalPhyNode->window.pTspk)->slotId; size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(pOperator, 4096); int32_t numOfCols = 0; SExprInfo* pExprInfo = createExprInfo(pIntervalPhyNode->window.pFuncs, NULL, &numOfCols); SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc); int32_t code = initAggInfo(&pInfo->binfo, &pInfo->aggSup, pExprInfo, numOfCols, pResBlock, keyBufSize, pTaskInfo->id.str); ASSERT(numOfCols > 0); increaseTs(pInfo->binfo.pCtx); initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); if (code != TSDB_CODE_SUCCESS) { goto _error; } initResultRowInfo(&pInfo->binfo.resultRowInfo, (int32_t)1); pInfo->pChildren = NULL; if (numOfChild > 0) { pInfo->pChildren = taosArrayInit(numOfChild, sizeof(SOperatorInfo)); for (int32_t i = 0; i < numOfChild; i++) { SOperatorInfo* pChildOp = createStreamFinalIntervalOperatorInfo(NULL, pPhyNode, pTaskInfo, 0); if (pChildOp) { taosArrayPush(pInfo->pChildren, &pChildOp); continue; } goto _error; } } // semi interval operator does not catch result if (!isFinalInterval(pInfo)) { pInfo->twAggSup.calTrigger = STREAM_TRIGGER_AT_ONCE; } pInfo->pUpdateRes = createResDataBlock(pPhyNode->pOutputDataBlockDesc); pInfo->pUpdateRes->info.type = STREAM_REPROCESS; blockDataEnsureCapacity(pInfo->pUpdateRes, 128); pInfo->pPhyNode = nodesCloneNode(pPhyNode); pOperator->name = "StreamFinalIntervalOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_STREAM_FINAL_INTERVAL; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->pExpr = pExprInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->numOfExprs = numOfCols; pOperator->info = pInfo; pOperator->fpSet = createOperatorFpSet(NULL, doStreamFinalIntervalAgg, NULL, NULL, destroyStreamFinalIntervalOperatorInfo, aggEncodeResultRow, aggDecodeResultRow, NULL); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyStreamFinalIntervalOperatorInfo(pInfo, numOfCols); taosMemoryFreeClear(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } void destroyStreamAggSupporter(SStreamAggSupporter* pSup) { taosArrayDestroy(pSup->pResultRows); taosMemoryFreeClear(pSup->pKeyBuf); destroyDiskbasedBuf(pSup->pResultBuf); } void destroyStreamSessionAggOperatorInfo(void* param, int32_t numOfOutput) { SStreamSessionAggOperatorInfo* pInfo = (SStreamSessionAggOperatorInfo*)param; doDestroyBasicInfo(&pInfo->binfo, numOfOutput); 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); SStreamSessionAggOperatorInfo* pChInfo = pChild->info; destroyStreamSessionAggOperatorInfo(pChInfo, numOfOutput); taosMemoryFreeClear(pChild); taosMemoryFreeClear(pChInfo); } } } int32_t initBiasicInfo(SOptrBasicInfo* pBasicInfo, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResultBlock) { pBasicInfo->pCtx = createSqlFunctionCtx(pExprInfo, numOfCols, &pBasicInfo->rowCellInfoOffset); pBasicInfo->pRes = pResultBlock; for (int32_t i = 0; i < numOfCols; ++i) { pBasicInfo->pCtx[i].pBuf = NULL; } ASSERT(numOfCols > 0); increaseTs(pBasicInfo->pCtx); 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; } } void initDownStream(SOperatorInfo* downstream, SStreamAggSupporter* pAggSup, int64_t gap, int64_t waterMark, uint8_t type) { ASSERT(downstream->operatorType == QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN); SStreamBlockScanInfo* pScanInfo = downstream->info; pScanInfo->sessionSup = (SessionWindowSupporter){.pStreamAggSup = pAggSup, .gap = gap, .parentType = type}; pScanInfo->pUpdateInfo = updateInfoInit(60000, TSDB_TIME_PRECISION_MILLI, waterMark); } int32_t initSessionAggSupporter(SStreamAggSupporter* pSup, const char* pKey, SqlFunctionCtx* pCtx, int32_t numOfOutput) { return initStreamAggSupporter(pSup, pKey, pCtx, numOfOutput, sizeof(SResultWindowInfo)); } SOperatorInfo* createStreamSessionAggOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResBlock, int64_t gap, int32_t tsSlotId, STimeWindowAggSupp* pTwAggSupp, SExecTaskInfo* pTaskInfo) { 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; } initResultSizeInfo(pOperator, 4096); code = initBiasicInfo(&pInfo->binfo, pExprInfo, numOfCols, pResBlock); if (code != TSDB_CODE_SUCCESS) { goto _error; } code = initSessionAggSupporter(&pInfo->streamAggSup, "StreamSessionAggOperatorInfo", pInfo->binfo.pCtx, numOfCols); if (code != TSDB_CODE_SUCCESS) { goto _error; } pInfo->pDummyCtx = (SqlFunctionCtx*)taosMemoryCalloc(numOfCols, sizeof(SqlFunctionCtx)); if (pInfo->pDummyCtx == NULL) { goto _error; } initDummyFunction(pInfo->pDummyCtx, pInfo->binfo.pCtx, numOfCols); pInfo->twAggSup = *pTwAggSupp; initResultRowInfo(&pInfo->binfo.resultRowInfo, 8); initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); pInfo->primaryTsIndex = tsSlotId; pInfo->gap = gap; pInfo->binfo.pRes = pResBlock; pInfo->order = TSDB_ORDER_ASC; _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pStDeleted = taosHashInit(64, hashFn, true, HASH_NO_LOCK); pInfo->pDelIterator = NULL; pInfo->pDelRes = createOneDataBlock(pResBlock, false); blockDataEnsureCapacity(pInfo->pDelRes, 64); pInfo->pChildren = NULL; pOperator->name = "StreamSessionWindowAggOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_STREAM_SESSION; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->pExpr = pExprInfo; pOperator->numOfExprs = numOfCols; pOperator->info = pInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doStreamSessionAgg, NULL, NULL, destroyStreamSessionAggOperatorInfo, aggEncodeResultRow, aggDecodeResultRow, NULL); pOperator->pTaskInfo = pTaskInfo; initDownStream(downstream, &pInfo->streamAggSup, pInfo->gap, pInfo->twAggSup.waterMark, pOperator->operatorType); code = appendDownstream(pOperator, &downstream, 1); return pOperator; _error: if (pInfo != NULL) { destroyStreamSessionAggOperatorInfo(pInfo, numOfCols); } taosMemoryFreeClear(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } int64_t getSessionWindowEndkey(void* data, int32_t index) { SArray* pWinInfos = (SArray*)data; SResultWindowInfo* pWin = taosArrayGet(pWinInfos, index); return pWin->win.ekey; } static bool isInWindow(SResultWindowInfo* pWin, TSKEY ts, int64_t gap) { int64_t sGap = ts - pWin->win.skey; int64_t eGap = pWin->win.ekey - ts; if ((sGap < 0 && sGap >= -gap) || (eGap < 0 && eGap >= -gap) || (sGap >= 0 && eGap >= 0)) { return true; } return false; } static SResultWindowInfo* insertNewSessionWindow(SArray* pWinInfos, TSKEY ts, int32_t index) { SResultWindowInfo win = {.pos.offset = -1, .pos.pageId = -1, .win.skey = ts, .win.ekey = ts, .isOutput = false}; return taosArrayInsert(pWinInfos, index, &win); } static SResultWindowInfo* addNewSessionWindow(SArray* pWinInfos, TSKEY ts) { SResultWindowInfo win = {.pos.offset = -1, .pos.pageId = -1, .win.skey = ts, .win.ekey = ts, .isOutput = false}; return taosArrayPush(pWinInfos, &win); } SResultWindowInfo* getSessionTimeWindow(SArray* pWinInfos, TSKEY ts, int64_t gap, int32_t* pIndex) { int32_t size = taosArrayGetSize(pWinInfos); if (size == 0) { *pIndex = 0; return addNewSessionWindow(pWinInfos, ts); } // find the first position which is smaller than the key int32_t index = binarySearch(pWinInfos, size, ts, TSDB_ORDER_DESC, getSessionWindowEndkey); SResultWindowInfo* pWin = NULL; if (index >= 0) { pWin = taosArrayGet(pWinInfos, index); if (isInWindow(pWin, ts, gap)) { *pIndex = index; return pWin; } } if (index + 1 < size) { pWin = taosArrayGet(pWinInfos, index + 1); if (isInWindow(pWin, ts, gap)) { *pIndex = index + 1; return pWin; } } if (index == size - 1) { *pIndex = taosArrayGetSize(pWinInfos); return addNewSessionWindow(pWinInfos, ts); } *pIndex = index + 1; return insertNewSessionWindow(pWinInfos, ts, index + 1); } int32_t updateSessionWindowInfo(SResultWindowInfo* pWinInfo, TSKEY* pTs, int32_t rows, int32_t start, int64_t gap, SHashObj* pStDeleted) { for (int32_t i = start; i < rows; ++i) { if (!isInWindow(pWinInfo, pTs[i], gap)) { return i - start; } if (pWinInfo->win.skey > pTs[i]) { if (pStDeleted && pWinInfo->isOutput) { taosHashPut(pStDeleted, &pWinInfo->pos, sizeof(SResultRowPosition), &pWinInfo->win.skey, sizeof(TSKEY)); pWinInfo->isOutput = false; } pWinInfo->win.skey = pTs[i]; } pWinInfo->win.ekey = TMAX(pWinInfo->win.ekey, pTs[i]); } return rows - start; } static int32_t setWindowOutputBuf(SResultWindowInfo* pWinInfo, SResultRow** pResult, SqlFunctionCtx* pCtx, int32_t groupId, int32_t numOfOutput, int32_t* rowCellInfoOffset, SStreamAggSupporter* pAggSup, SExecTaskInfo* pTaskInfo) { assert(pWinInfo->win.skey <= pWinInfo->win.ekey); // too many time window in query int32_t size = taosArrayGetSize(pAggSup->pResultRows); if (size > MAX_INTERVAL_TIME_WINDOW) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_TOO_MANY_TIMEWINDOW); } if (pWinInfo->pos.pageId == -1) { *pResult = getNewResultRow(pAggSup->pResultBuf, groupId, pAggSup->resultRowSize); if (*pResult == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } initResultRow(*pResult); // add a new result set for a new group pWinInfo->pos.pageId = (*pResult)->pageId; pWinInfo->pos.offset = (*pResult)->offset; } else { *pResult = getResultRowByPos(pAggSup->pResultBuf, &pWinInfo->pos); if (!(*pResult)) { qError("getResultRowByPos return NULL, TID:%s", GET_TASKID(pTaskInfo)); return TSDB_CODE_FAILED; } } // set time window for current result (*pResult)->win = pWinInfo->win; setResultRowInitCtx(*pResult, pCtx, numOfOutput, rowCellInfoOffset); return TSDB_CODE_SUCCESS; } static int32_t doOneWindowAggImpl(int32_t tsColId, SOptrBasicInfo* pBinfo, SStreamAggSupporter* pAggSup, SColumnInfoData* pTimeWindowData, SSDataBlock* pSDataBlock, SResultWindowInfo* pCurWin, SResultRow** pResult, int32_t startIndex, int32_t winRows, int32_t numOutput, SExecTaskInfo* pTaskInfo) { SColumnInfoData* pColDataInfo = taosArrayGet(pSDataBlock->pDataBlock, tsColId); TSKEY* tsCols = (int64_t*)pColDataInfo->pData; int32_t code = setWindowOutputBuf(pCurWin, pResult, pBinfo->pCtx, pSDataBlock->info.groupId, numOutput, pBinfo->rowCellInfoOffset, pAggSup, pTaskInfo); if (code != TSDB_CODE_SUCCESS || (*pResult) == NULL) { return TSDB_CODE_QRY_OUT_OF_MEMORY; } updateTimeWindowInfo(pTimeWindowData, &pCurWin->win, true); doApplyFunctions(pTaskInfo, pBinfo->pCtx, &pCurWin->win, pTimeWindowData, startIndex, winRows, tsCols, pSDataBlock->info.rows, numOutput, TSDB_ORDER_ASC); return TSDB_CODE_SUCCESS; } static int32_t doOneWindowAgg(SStreamSessionAggOperatorInfo* pInfo, SSDataBlock* pSDataBlock, SResultWindowInfo* pCurWin, SResultRow** pResult, int32_t startIndex, int32_t winRows, int32_t numOutput, SExecTaskInfo* pTaskInfo) { return doOneWindowAggImpl(pInfo->primaryTsIndex, &pInfo->binfo, &pInfo->streamAggSup, &pInfo->twAggSup.timeWindowData, pSDataBlock, pCurWin, pResult, startIndex, winRows, numOutput, pTaskInfo); } static int32_t doOneStateWindowAgg(SStreamStateAggOperatorInfo* pInfo, SSDataBlock* pSDataBlock, SResultWindowInfo* pCurWin, SResultRow** pResult, int32_t startIndex, int32_t winRows, int32_t numOutput, SExecTaskInfo* pTaskInfo) { return doOneWindowAggImpl(pInfo->primaryTsIndex, &pInfo->binfo, &pInfo->streamAggSup, &pInfo->twAggSup.timeWindowData, pSDataBlock, pCurWin, pResult, startIndex, winRows, numOutput, pTaskInfo); } int32_t copyWinInfoToDataBlock(SSDataBlock* pBlock, SStreamAggSupporter* pAggSup, int32_t start, int32_t num, int32_t numOfExprs, SOptrBasicInfo* pBinfo) { for (int32_t i = start; i < num; i += 1) { SResultWindowInfo* pWinInfo = taosArrayGet(pAggSup->pResultRows, start); SFilePage* bufPage = getBufPage(pAggSup->pResultBuf, pWinInfo->pos.pageId); SResultRow* pRow = (SResultRow*)((char*)bufPage + pWinInfo->pos.offset); for (int32_t j = 0; j < numOfExprs; ++j) { SResultRowEntryInfo* pResultInfo = getResultCell(pRow, j, pBinfo->rowCellInfoOffset); SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, j); char* in = GET_ROWCELL_INTERBUF(pBinfo->pCtx[j].resultInfo); colDataAppend(pColInfoData, pBlock->info.rows, in, pResultInfo->isNullRes); } pBlock->info.rows += pRow->numOfRows; releaseBufPage(pAggSup->pResultBuf, bufPage); } blockDataUpdateTsWindow(pBlock, -1); return TSDB_CODE_SUCCESS; } int32_t getNumCompactWindow(SArray* pWinInfos, int32_t startIndex, int64_t gap) { SResultWindowInfo* pCurWin = taosArrayGet(pWinInfos, startIndex); int32_t size = taosArrayGetSize(pWinInfos); // Just look for the window behind StartIndex for (int32_t i = startIndex + 1; i < size; i++) { SResultWindowInfo* pWinInfo = taosArrayGet(pWinInfos, i); if (!isInWindow(pCurWin, pWinInfo->win.skey, gap)) { return i - startIndex - 1; } } return size - startIndex - 1; } void compactTimeWindow(SStreamSessionAggOperatorInfo* pInfo, int32_t startIndex, int32_t num, int32_t groupId, int32_t numOfOutput, SExecTaskInfo* pTaskInfo, SHashObj* pStUpdated, SHashObj* pStDeleted) { SResultWindowInfo* pCurWin = taosArrayGet(pInfo->streamAggSup.pResultRows, startIndex); SResultRow* pCurResult = NULL; setWindowOutputBuf(pCurWin, &pCurResult, pInfo->binfo.pCtx, groupId, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->streamAggSup, pTaskInfo); num += startIndex + 1; ASSERT(num <= taosArrayGetSize(pInfo->streamAggSup.pResultRows)); // Just look for the window behind StartIndex for (int32_t i = startIndex + 1; i < num; i++) { SResultWindowInfo* pWinInfo = taosArrayGet(pInfo->streamAggSup.pResultRows, i); SResultRow* pWinResult = NULL; setWindowOutputBuf(pWinInfo, &pWinResult, pInfo->pDummyCtx, groupId, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->streamAggSup, pTaskInfo); pCurWin->win.ekey = TMAX(pCurWin->win.ekey, pWinInfo->win.ekey); compactFunctions(pInfo->binfo.pCtx, pInfo->pDummyCtx, numOfOutput, pTaskInfo); taosHashRemove(pStUpdated, &pWinInfo->pos, sizeof(SResultRowPosition)); if (pWinInfo->isOutput) { taosHashPut(pStDeleted, &pWinInfo->pos, sizeof(SResultRowPosition), &pWinInfo->win.skey, sizeof(TSKEY)); pWinInfo->isOutput = false; } taosArrayRemove(pInfo->streamAggSup.pResultRows, i); } } static void doStreamSessionAggImpl(SOperatorInfo* pOperator, SSDataBlock* pSDataBlock, SHashObj* pStUpdated, SHashObj* pStDeleted) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SStreamSessionAggOperatorInfo* pInfo = pOperator->info; bool masterScan = true; int32_t numOfOutput = pOperator->numOfExprs; int64_t groupId = pSDataBlock->info.groupId; int64_t gap = pInfo->gap; int64_t code = TSDB_CODE_SUCCESS; int32_t step = 1; bool ascScan = true; TSKEY* tsCols = NULL; SResultRow* pResult = NULL; int32_t winRows = 0; if (pSDataBlock->pDataBlock != NULL) { SColumnInfoData* pColDataInfo = taosArrayGet(pSDataBlock->pDataBlock, pInfo->primaryTsIndex); tsCols = (int64_t*)pColDataInfo->pData; } else { return; } SStreamAggSupporter* pAggSup = &pInfo->streamAggSup; for (int32_t i = 0; i < pSDataBlock->info.rows;) { int32_t winIndex = 0; SResultWindowInfo* pCurWin = getSessionTimeWindow(pAggSup->pResultRows, tsCols[i], gap, &winIndex); winRows = updateSessionWindowInfo(pCurWin, tsCols, pSDataBlock->info.rows, i, pInfo->gap, pStDeleted); code = doOneWindowAgg(pInfo, pSDataBlock, pCurWin, &pResult, i, winRows, numOfOutput, pTaskInfo); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } // window start(end) key interpolation // doWindowBorderInterpolation(pOperatorInfo, pSDataBlock, pInfo->binfo.pCtx, pResult, &nextWin, startPos, // forwardRows, // pInfo->order, false); int32_t winNum = getNumCompactWindow(pAggSup->pResultRows, winIndex, gap); if (winNum > 0) { compactTimeWindow(pInfo, winIndex, winNum, groupId, numOfOutput, pTaskInfo, pStUpdated, pStDeleted); } pCurWin->isClosed = false; if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_AT_ONCE) { code = taosHashPut(pStUpdated, &pCurWin->pos, sizeof(SResultRowPosition), &(pCurWin->win.skey), sizeof(TSKEY)); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } pCurWin->isOutput = true; } i += winRows; } } static void doClearSessionWindows(SStreamAggSupporter* pAggSup, SOptrBasicInfo* pBinfo, SSDataBlock* pBlock, int32_t tsIndex, int32_t numOfOutput, int64_t gap, SArray* result) { SColumnInfoData* pColDataInfo = taosArrayGet(pBlock->pDataBlock, tsIndex); TSKEY* tsCols = (TSKEY*)pColDataInfo->pData; int32_t step = 0; for (int32_t i = 0; i < pBlock->info.rows; i += step) { int32_t winIndex = 0; SResultWindowInfo* pCurWin = getSessionTimeWindow(pAggSup->pResultRows, tsCols[i], gap, &winIndex); step = updateSessionWindowInfo(pCurWin, tsCols, pBlock->info.rows, i, gap, NULL); ASSERT(isInWindow(pCurWin, tsCols[i], gap)); doClearWindowImpl(&pCurWin->pos, pAggSup->pResultBuf, pBinfo, numOfOutput); if (result) { taosArrayPush(result, pCurWin); } } } static int32_t copyUpdateResult(SHashObj* pStUpdated, SArray* pUpdated, int32_t groupId) { void* pData = NULL; size_t keyLen = 0; while ((pData = taosHashIterate(pStUpdated, pData)) != NULL) { void* key = taosHashGetKey(pData, &keyLen); ASSERT(keyLen == sizeof(SResultRowPosition)); SResKeyPos* pos = taosMemoryMalloc(sizeof(SResKeyPos) + sizeof(uint64_t)); if (pos == NULL) { return TSDB_CODE_QRY_OUT_OF_MEMORY; } pos->groupId = groupId; pos->pos = *(SResultRowPosition*)key; *(int64_t*)pos->key = *(uint64_t*)pData; taosArrayPush(pUpdated, &pos); } return TSDB_CODE_SUCCESS; } void doBuildDeleteDataBlock(SHashObj* pStDeleted, SSDataBlock* pBlock, void** Ite) { blockDataCleanup(pBlock); size_t keyLen = 0; while (((*Ite) = taosHashIterate(pStDeleted, *Ite)) != NULL) { SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, 0); colDataAppend(pColInfoData, pBlock->info.rows, *Ite, false); for (int32_t i = 1; i < pBlock->info.numOfCols; i++) { pColInfoData = taosArrayGet(pBlock->pDataBlock, i); colDataAppendNULL(pColInfoData, pBlock->info.rows); } pBlock->info.rows += 1; if (pBlock->info.rows + 1 >= pBlock->info.capacity) { break; } } if ((*Ite) == NULL) { taosHashClear(pStDeleted); } } static void rebuildTimeWindow(SStreamSessionAggOperatorInfo* pInfo, SArray* pWinArray, int32_t groupId, int32_t numOfOutput, SExecTaskInfo* pTaskInfo) { int32_t size = taosArrayGetSize(pWinArray); ASSERT(pInfo->pChildren); for (int32_t i = 0; i < size; i++) { SResultWindowInfo* pParentWin = taosArrayGet(pWinArray, i); SResultRow* pCurResult = NULL; setWindowOutputBuf(pParentWin, &pCurResult, pInfo->binfo.pCtx, groupId, numOfOutput, pInfo->binfo.rowCellInfoOffset, &pInfo->streamAggSup, pTaskInfo); int32_t numOfChildren = taosArrayGetSize(pInfo->pChildren); for (int32_t j = 0; j < numOfChildren; j++) { SOperatorInfo* pChild = taosArrayGetP(pInfo->pChildren, j); SStreamSessionAggOperatorInfo* pChInfo = pChild->info; SArray* pChWins = pChInfo->streamAggSup.pResultRows; int32_t chWinSize = taosArrayGetSize(pChWins); int32_t index = binarySearch(pChWins, chWinSize, pParentWin->win.skey, TSDB_ORDER_DESC, getSessionWindowEndkey); for (int32_t k = index; k > 0 && k < chWinSize; k++) { SResultWindowInfo* pcw = taosArrayGet(pChWins, k); if (pParentWin->win.skey <= pcw->win.skey && pcw->win.ekey <= pParentWin->win.ekey) { SResultRow* pChResult = NULL; setWindowOutputBuf(pcw, &pChResult, pChInfo->binfo.pCtx, groupId, numOfOutput, pChInfo->binfo.rowCellInfoOffset, &pChInfo->streamAggSup, pTaskInfo); compactFunctions(pInfo->binfo.pCtx, pChInfo->binfo.pCtx, numOfOutput, pTaskInfo); continue; } break; } } } } bool isFinalSession(SStreamSessionAggOperatorInfo* pInfo) { return pInfo->pChildren != NULL; } typedef SResultWindowInfo* (*__get_win_info_)(void*); SResultWindowInfo* getSessionWinInfo(void* pData) { return (SResultWindowInfo*)pData; } SResultWindowInfo* getStateWinInfo(void* pData) { return &((SStateWindowInfo*)pData)->winInfo; } int32_t closeSessionWindow(SArray* pWins, STimeWindowAggSupp* pTwSup, SArray* pClosed, int8_t calTrigger, __get_win_info_ fn) { // Todo(liuyao) save window to tdb int32_t size = taosArrayGetSize(pWins); for (int32_t i = 0; i < size; i++) { void* pWin = taosArrayGet(pWins, i); SResultWindowInfo* pSeWin = fn(pWin); if (pSeWin->win.ekey < pTwSup->maxTs - pTwSup->waterMark) { if (!pSeWin->isClosed) { SResKeyPos* pos = taosMemoryMalloc(sizeof(SResKeyPos) + sizeof(uint64_t)); if (pos == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } pos->groupId = 0; pos->pos = pSeWin->pos; *(int64_t*)pos->key = pSeWin->win.ekey; if (!taosArrayPush(pClosed, &pos)) { taosMemoryFree(pos); return TSDB_CODE_OUT_OF_MEMORY; } pSeWin->isClosed = true; if (calTrigger == STREAM_TRIGGER_WINDOW_CLOSE) { pSeWin->isOutput = true; } } continue; } break; } return TSDB_CODE_SUCCESS; } static SSDataBlock* doStreamSessionAgg(SOperatorInfo* pOperator) { if (pOperator->status == OP_EXEC_DONE) { return NULL; } SStreamSessionAggOperatorInfo* pInfo = pOperator->info; SOptrBasicInfo* pBInfo = &pInfo->binfo; if (pOperator->status == OP_RES_TO_RETURN) { doBuildDeleteDataBlock(pInfo->pStDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { return pInfo->pDelRes; } doBuildResultDatablock(pOperator, pBInfo, &pInfo->groupResInfo, pInfo->streamAggSup.pResultBuf); if (pBInfo->pRes->info.rows == 0 || !hashRemainDataInGroupInfo(&pInfo->groupResInfo)) { doSetOperatorCompleted(pOperator); } return pBInfo->pRes->info.rows == 0 ? NULL : pBInfo->pRes; } _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); SHashObj* pStUpdated = taosHashInit(64, hashFn, true, HASH_NO_LOCK); 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(pOperator, pBInfo->pCtx, pBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); if (pBlock->info.type == STREAM_REPROCESS) { SArray* pWins = taosArrayInit(16, sizeof(SResultWindowInfo)); doClearSessionWindows(&pInfo->streamAggSup, &pInfo->binfo, pBlock, 0, pOperator->numOfExprs, pInfo->gap, pWins); if (isFinalSession(pInfo)) { int32_t childIndex = 0; // Todo(liuyao) get child id from SSDataBlock SOperatorInfo* pChildOp = taosArrayGetP(pInfo->pChildren, childIndex); SStreamSessionAggOperatorInfo* pChildInfo = pChildOp->info; doClearSessionWindows(&pChildInfo->streamAggSup, &pChildInfo->binfo, pBlock, 0, pChildOp->numOfExprs, pChildInfo->gap, NULL); rebuildTimeWindow(pInfo, pWins, pInfo->binfo.pRes->info.groupId, pOperator->numOfExprs, pOperator->pTaskInfo); } taosArrayDestroy(pWins); continue; } if (isFinalSession(pInfo)) { int32_t childIndex = 0; // Todo(liuyao) get child id from SSDataBlock SOptrBasicInfo* pChildOp = taosArrayGetP(pInfo->pChildren, childIndex); doStreamSessionAggImpl(pOperator, pBlock, NULL, NULL); } doStreamSessionAggImpl(pOperator, pBlock, pStUpdated, pInfo->pStDeleted); pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.window.ekey); } // restore the value pOperator->status = OP_RES_TO_RETURN; SArray* pClosed = taosArrayInit(16, POINTER_BYTES); closeSessionWindow(pInfo->streamAggSup.pResultRows, &pInfo->twAggSup, pClosed, pInfo->twAggSup.calTrigger, getSessionWinInfo); SArray* pUpdated = taosArrayInit(16, POINTER_BYTES); copyUpdateResult(pStUpdated, pUpdated, pBInfo->pRes->info.groupId); taosHashCleanup(pStUpdated); if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_WINDOW_CLOSE) { taosArrayAddAll(pUpdated, pClosed); } finalizeUpdatedResult(pOperator->numOfExprs, pInfo->streamAggSup.pResultBuf, pUpdated, pInfo->binfo.rowCellInfoOffset); initMultiResInfoFromArrayList(&pInfo->groupResInfo, pUpdated); blockDataEnsureCapacity(pInfo->binfo.pRes, pOperator->resultInfo.capacity); doBuildDeleteDataBlock(pInfo->pStDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { return pInfo->pDelRes; } doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->streamAggSup.pResultBuf); return pBInfo->pRes->info.rows == 0 ? NULL : pBInfo->pRes; } SOperatorInfo* createStreamFinalSessionAggOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResBlock, int64_t gap, int32_t tsSlotId, STimeWindowAggSupp* pTwAggSupp, SExecTaskInfo* pTaskInfo) { int32_t code = TSDB_CODE_OUT_OF_MEMORY; SStreamSessionAggOperatorInfo* pInfo = NULL; SOperatorInfo* pOperator = createStreamSessionAggOperatorInfo(downstream, pExprInfo, numOfCols, pResBlock, gap, tsSlotId, pTwAggSupp, pTaskInfo); if (pOperator == NULL) { goto _error; } pOperator->name = "StreamFinalSessionWindowAggOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_STREAM_FINAL_SESSION; int32_t numOfChild = 1; // Todo(liuyao) get it from phy plan pInfo = pOperator->info; pInfo->pChildren = taosArrayInit(8, sizeof(void*)); for (int32_t i = 0; i < numOfChild; i++) { SOperatorInfo* pChild = createStreamSessionAggOperatorInfo(NULL, pExprInfo, numOfCols, NULL, gap, tsSlotId, pTwAggSupp, pTaskInfo); if (pChild == NULL) { goto _error; } taosArrayPush(pInfo->pChildren, &pChild); } return pOperator; _error: if (pInfo != NULL) { destroyStreamSessionAggOperatorInfo(pInfo, numOfCols); } taosMemoryFreeClear(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } void destroyStreamStateOperatorInfo(void* param, int32_t numOfOutput) { SStreamStateAggOperatorInfo* pInfo = (SStreamStateAggOperatorInfo*)param; doDestroyBasicInfo(&pInfo->binfo, numOfOutput); 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); SStreamSessionAggOperatorInfo* pChInfo = pChild->info; destroyStreamSessionAggOperatorInfo(pChInfo, numOfOutput); taosMemoryFreeClear(pChild); taosMemoryFreeClear(pChInfo); } } } int64_t getStateWinTsKey(void* data, int32_t index) { SStateWindowInfo* pStateWin = taosArrayGet(data, index); return pStateWin->winInfo.win.ekey; } SStateWindowInfo* addNewStateWindow(SArray* pWinInfos, TSKEY ts, char* pKeyData, SColumn* pCol) { SStateWindowInfo win = { .stateKey.bytes = pCol->bytes, .stateKey.type = pCol->type, .stateKey.pData = taosMemoryCalloc(1, pCol->bytes), .winInfo.pos.offset = -1, .winInfo.pos.pageId = -1, .winInfo.win.skey = ts, .winInfo.win.ekey = ts, .winInfo.isOutput = false, .winInfo.isClosed = false, }; if (IS_VAR_DATA_TYPE(win.stateKey.type)) { varDataCopy(win.stateKey.pData, pKeyData); } else { memcpy(win.stateKey.pData, pKeyData, win.stateKey.bytes); } return taosArrayPush(pWinInfos, &win); } SStateWindowInfo* insertNewStateWindow(SArray* pWinInfos, TSKEY ts, char* pKeyData, int32_t index, SColumn* pCol) { SStateWindowInfo win = { .stateKey.bytes = pCol->bytes, .stateKey.type = pCol->type, .stateKey.pData = taosMemoryCalloc(1, pCol->bytes), .winInfo.pos.offset = -1, .winInfo.pos.pageId = -1, .winInfo.win.skey = ts, .winInfo.win.ekey = ts, .winInfo.isOutput = false, .winInfo.isClosed = false, }; if (IS_VAR_DATA_TYPE(win.stateKey.type)) { varDataCopy(win.stateKey.pData, pKeyData); } else { memcpy(win.stateKey.pData, pKeyData, win.stateKey.bytes); } return taosArrayInsert(pWinInfos, index, &win); } bool isTsInWindow(SStateWindowInfo* pWin, TSKEY ts) { if (pWin->winInfo.win.skey <= ts && ts <= pWin->winInfo.win.ekey) { return true; } return false; } bool isEqualStateKey(SStateWindowInfo* pWin, char* pKeyData) { return pKeyData && compareVal(pKeyData, &pWin->stateKey); } SStateWindowInfo* getStateWindowByTs(SArray* pWinInfos, TSKEY ts, int32_t* pIndex) { int32_t size = taosArrayGetSize(pWinInfos); int32_t index = binarySearch(pWinInfos, size, ts, TSDB_ORDER_DESC, getStateWinTsKey); SStateWindowInfo* pWin = NULL; if (index >= 0) { pWin = taosArrayGet(pWinInfos, index); if (isTsInWindow(pWin, ts)) { *pIndex = index; return pWin; } } if (index + 1 < size) { pWin = taosArrayGet(pWinInfos, index + 1); if (isTsInWindow(pWin, ts)) { *pIndex = index + 1; return pWin; } } *pIndex = 0; return NULL; } SStateWindowInfo* getStateWindow(SArray* pWinInfos, TSKEY ts, char* pKeyData, SColumn* pCol, int32_t* pIndex) { int32_t size = taosArrayGetSize(pWinInfos); if (size == 0) { *pIndex = 0; return addNewStateWindow(pWinInfos, ts, pKeyData, pCol); } int32_t index = binarySearch(pWinInfos, size, ts, TSDB_ORDER_DESC, getStateWinTsKey); SStateWindowInfo* pWin = NULL; if (index >= 0) { pWin = taosArrayGet(pWinInfos, index); if (isTsInWindow(pWin, ts)) { *pIndex = index; return pWin; } } if (index + 1 < size) { pWin = taosArrayGet(pWinInfos, index + 1); if (isTsInWindow(pWin, ts) || isEqualStateKey(pWin, pKeyData)) { *pIndex = index + 1; return pWin; } } if (index >= 0) { pWin = taosArrayGet(pWinInfos, index); if (isEqualStateKey(pWin, pKeyData)) { *pIndex = index; return pWin; } } if (index == size - 1) { *pIndex = taosArrayGetSize(pWinInfos); return addNewStateWindow(pWinInfos, ts, pKeyData, pCol); } *pIndex = index + 1; return insertNewStateWindow(pWinInfos, ts, pKeyData, index + 1, pCol); } int32_t updateStateWindowInfo(SArray* pWinInfos, int32_t winIndex, TSKEY* pTs, SColumnInfoData* pKeyCol, int32_t rows, int32_t start, bool* allEqual, SHashObj* pSeDelete) { *allEqual = true; SStateWindowInfo* pWinInfo = taosArrayGet(pWinInfos, winIndex); for (int32_t i = start; i < rows; ++i) { char* pKeyData = colDataGetData(pKeyCol, i); if (!isTsInWindow(pWinInfo, pTs[i])) { if (isEqualStateKey(pWinInfo, pKeyData)) { int32_t size = taosArrayGetSize(pWinInfos); if (winIndex + 1 < size) { SStateWindowInfo* pNextWin = taosArrayGet(pWinInfos, winIndex + 1); // ts belongs to the next window if (pTs[i] >= pNextWin->winInfo.win.skey) { return i - start; } } } else { return i - start; } } if (pWinInfo->winInfo.win.skey > pTs[i]) { if (pSeDelete && pWinInfo->winInfo.isOutput) { taosHashPut(pSeDelete, &pWinInfo->winInfo.pos, sizeof(SResultRowPosition), &pWinInfo->winInfo.win.skey, sizeof(TSKEY)); pWinInfo->winInfo.isOutput = false; } pWinInfo->winInfo.win.skey = pTs[i]; } pWinInfo->winInfo.win.ekey = TMAX(pWinInfo->winInfo.win.ekey, pTs[i]); if (!isEqualStateKey(pWinInfo, pKeyData)) { *allEqual = false; } } return rows - start; } void deleteWindow(SArray* pWinInfos, int32_t index) { ASSERT(index >= 0 && index < taosArrayGetSize(pWinInfos)); taosArrayRemove(pWinInfos, index); } static void doClearStateWindows(SStreamAggSupporter* pAggSup, SSDataBlock* pBlock, int32_t tsIndex, SColumn* pCol, int32_t keyIndex, SHashObj* pSeUpdated, SHashObj* pSeDeleted) { SColumnInfoData* pTsColInfo = taosArrayGet(pBlock->pDataBlock, tsIndex); SColumnInfoData* pKeyColInfo = taosArrayGet(pBlock->pDataBlock, keyIndex); TSKEY* tsCol = (TSKEY*)pTsColInfo->pData; bool allEqual = false; int32_t step = 1; for (int32_t i = 0; i < pBlock->info.rows; i += step) { char* pKeyData = colDataGetData(pKeyColInfo, i); int32_t winIndex = 0; SStateWindowInfo* pCurWin = getStateWindowByTs(pAggSup->pResultRows, tsCol[i], &winIndex); if (!pCurWin) { continue; } step = updateStateWindowInfo(pAggSup->pResultRows, winIndex, tsCol, pKeyColInfo, pBlock->info.rows, i, &allEqual, pSeDeleted); ASSERT(isTsInWindow(pCurWin, tsCol[i]) || isEqualStateKey(pCurWin, pKeyData)); taosArrayPush(pAggSup->pScanWindow, &pCurWin->winInfo.win); taosHashRemove(pSeUpdated, &pCurWin->winInfo.pos, sizeof(SResultRowPosition)); deleteWindow(pAggSup->pResultRows, winIndex); } } static void doStreamStateAggImpl(SOperatorInfo* pOperator, SSDataBlock* pSDataBlock, SHashObj* pSeUpdated, SHashObj* pStDeleted) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; SStreamStateAggOperatorInfo* pInfo = pOperator->info; bool masterScan = true; int32_t numOfOutput = pOperator->numOfExprs; int64_t groupId = pSDataBlock->info.groupId; int64_t code = TSDB_CODE_SUCCESS; int32_t step = 1; bool ascScan = true; TSKEY* tsCols = NULL; SResultRow* pResult = NULL; int32_t winRows = 0; if (pSDataBlock->pDataBlock != NULL) { SColumnInfoData* pColDataInfo = taosArrayGet(pSDataBlock->pDataBlock, pInfo->primaryTsIndex); tsCols = (int64_t*)pColDataInfo->pData; } else { return; } SStreamAggSupporter* pAggSup = &pInfo->streamAggSup; SColumnInfoData* pKeyColInfo = taosArrayGet(pSDataBlock->pDataBlock, pInfo->stateCol.slotId); for (int32_t i = 0; i < pSDataBlock->info.rows; i += winRows) { char* pKeyData = colDataGetData(pKeyColInfo, i); int32_t winIndex = 0; bool allEqual = true; SStateWindowInfo* pCurWin = getStateWindow(pAggSup->pResultRows, tsCols[i], pKeyData, &pInfo->stateCol, &winIndex); winRows = updateStateWindowInfo(pAggSup->pResultRows, winIndex, tsCols, pKeyColInfo, pSDataBlock->info.rows, i, &allEqual, pInfo->pSeDeleted); if (!allEqual) { taosArrayPush(pAggSup->pScanWindow, &pCurWin->winInfo.win); taosHashRemove(pSeUpdated, &pCurWin->winInfo.pos, sizeof(SResultRowPosition)); deleteWindow(pAggSup->pResultRows, winIndex); continue; } code = doOneStateWindowAgg(pInfo, pSDataBlock, &pCurWin->winInfo, &pResult, i, winRows, numOfOutput, pTaskInfo); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } pCurWin->winInfo.isClosed = false; if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_AT_ONCE) { code = taosHashPut(pSeUpdated, &pCurWin->winInfo.pos, sizeof(SResultRowPosition), &(pCurWin->winInfo.win.skey), sizeof(TSKEY)); if (code != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } pCurWin->winInfo.isOutput = true; } } } static SSDataBlock* doStreamStateAgg(SOperatorInfo* pOperator) { if (pOperator->status == OP_EXEC_DONE) { return NULL; } SStreamStateAggOperatorInfo* pInfo = pOperator->info; SOptrBasicInfo* pBInfo = &pInfo->binfo; if (pOperator->status == OP_RES_TO_RETURN) { doBuildDeleteDataBlock(pInfo->pSeDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { return pInfo->pDelRes; } doBuildResultDatablock(pOperator, pBInfo, &pInfo->groupResInfo, pInfo->streamAggSup.pResultBuf); if (pBInfo->pRes->info.rows == 0 || !hashRemainDataInGroupInfo(&pInfo->groupResInfo)) { doSetOperatorCompleted(pOperator); } return pBInfo->pRes->info.rows == 0 ? NULL : pBInfo->pRes; } _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); SHashObj* pSeUpdated = taosHashInit(64, hashFn, true, HASH_NO_LOCK); 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(pOperator, pBInfo->pCtx, pBlock, TSDB_ORDER_ASC, MAIN_SCAN, true); if (pBlock->info.type == STREAM_REPROCESS) { doClearStateWindows(&pInfo->streamAggSup, pBlock, pInfo->primaryTsIndex, &pInfo->stateCol, pInfo->stateCol.slotId, pSeUpdated, pInfo->pSeDeleted); continue; } doStreamStateAggImpl(pOperator, pBlock, pSeUpdated, pInfo->pSeDeleted); pInfo->twAggSup.maxTs = TMAX(pInfo->twAggSup.maxTs, pBlock->info.window.ekey); } // restore the value pOperator->status = OP_RES_TO_RETURN; SArray* pClosed = taosArrayInit(16, POINTER_BYTES); closeSessionWindow(pInfo->streamAggSup.pResultRows, &pInfo->twAggSup, pClosed, pInfo->twAggSup.calTrigger, getStateWinInfo); SArray* pUpdated = taosArrayInit(16, POINTER_BYTES); copyUpdateResult(pSeUpdated, pUpdated, pBInfo->pRes->info.groupId); taosHashCleanup(pSeUpdated); if (pInfo->twAggSup.calTrigger == STREAM_TRIGGER_WINDOW_CLOSE) { taosArrayAddAll(pUpdated, pClosed); } finalizeUpdatedResult(pOperator->numOfExprs, pInfo->streamAggSup.pResultBuf, pUpdated, pInfo->binfo.rowCellInfoOffset); initMultiResInfoFromArrayList(&pInfo->groupResInfo, pUpdated); blockDataEnsureCapacity(pInfo->binfo.pRes, pOperator->resultInfo.capacity); doBuildDeleteDataBlock(pInfo->pSeDeleted, pInfo->pDelRes, &pInfo->pDelIterator); if (pInfo->pDelRes->info.rows > 0) { return pInfo->pDelRes; } doBuildResultDatablock(pOperator, &pInfo->binfo, &pInfo->groupResInfo, pInfo->streamAggSup.pResultBuf); return pBInfo->pRes->info.rows == 0 ? NULL : pBInfo->pRes; } int32_t initStateAggSupporter(SStreamAggSupporter* pSup, const char* pKey, SqlFunctionCtx* pCtx, int32_t numOfOutput) { return initStreamAggSupporter(pSup, pKey, pCtx, numOfOutput, sizeof(SStateWindowInfo)); } SOperatorInfo* createStreamStateAggOperatorInfo(SOperatorInfo* downstream, SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo) { SStreamStateWinodwPhysiNode* pStateNode = (SStreamStateWinodwPhysiNode*)pPhyNode; SSDataBlock* pResBlock = createResDataBlock(pPhyNode->pOutputDataBlockDesc); int32_t tsSlotId = ((SColumnNode*)pStateNode->window.pTspk)->slotId; SColumnNode* pColNode = (SColumnNode*)((STargetNode*)pStateNode->pStateKey)->pExpr; int32_t code = TSDB_CODE_OUT_OF_MEMORY; SStreamStateAggOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(SStreamStateAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pInfo == NULL || pOperator == NULL) { goto _error; } int32_t numOfCols = 0; SExprInfo* pExprInfo = createExprInfo(pStateNode->window.pFuncs, NULL, &numOfCols); pInfo->stateCol = extractColumnFromColumnNode(pColNode); initResultSizeInfo(pOperator, 4096); initResultRowInfo(&pInfo->binfo.resultRowInfo, 8); pInfo->twAggSup = (STimeWindowAggSupp){ .waterMark = pStateNode->window.watermark, .calTrigger = pStateNode->window.triggerType, .maxTs = INT64_MIN, }; initExecTimeWindowInfo(&pInfo->twAggSup.timeWindowData, &pTaskInfo->window); code = initBiasicInfo(&pInfo->binfo, pExprInfo, numOfCols, pResBlock); if (code != TSDB_CODE_SUCCESS) { goto _error; } code = initStateAggSupporter(&pInfo->streamAggSup, "StreamStateAggOperatorInfo", pInfo->binfo.pCtx, numOfCols); if (code != TSDB_CODE_SUCCESS) { goto _error; } pInfo->pDummyCtx = (SqlFunctionCtx*)taosMemoryCalloc(numOfCols, sizeof(SqlFunctionCtx)); if (pInfo->pDummyCtx == NULL) { goto _error; } initDummyFunction(pInfo->pDummyCtx, pInfo->binfo.pCtx, numOfCols); pInfo->primaryTsIndex = tsSlotId; pInfo->order = TSDB_ORDER_ASC; _hash_fn_t hashFn = taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY); pInfo->pSeDeleted = taosHashInit(64, hashFn, true, HASH_NO_LOCK); pInfo->pDelIterator = NULL; pInfo->pDelRes = createOneDataBlock(pResBlock, false); blockDataEnsureCapacity(pInfo->pDelRes, 64); pInfo->pChildren = NULL; pOperator->name = "StreamStateAggOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_STREAM_STATE; pOperator->blocking = true; pOperator->status = OP_NOT_OPENED; pOperator->numOfExprs = numOfCols; pOperator->pExpr = pExprInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->info = pInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doStreamStateAgg, NULL, NULL, destroyStreamStateOperatorInfo, aggEncodeResultRow, aggDecodeResultRow, NULL); initDownStream(downstream, &pInfo->streamAggSup, 0, pInfo->twAggSup.waterMark, pOperator->operatorType); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyStreamStateOperatorInfo(pInfo, numOfCols); taosMemoryFreeClear(pInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; } typedef struct SMergeIntervalAggOperatorInfo { SIntervalAggOperatorInfo intervalAggOperatorInfo; SHashObj* groupIntervalHash; bool hasGroupId; uint64_t groupId; SSDataBlock* prefetchedBlock; bool inputBlocksFinished; } SMergeIntervalAggOperatorInfo; void destroyMergeIntervalOperatorInfo(void* param, int32_t numOfOutput) { SMergeIntervalAggOperatorInfo* miaInfo = (SMergeIntervalAggOperatorInfo*)param; taosHashCleanup(miaInfo->groupIntervalHash); destroyIntervalOperatorInfo(&miaInfo->intervalAggOperatorInfo, numOfOutput); } static int32_t outputPrevIntervalResult(SOperatorInfo* pOperatorInfo, uint64_t tableGroupId, SSDataBlock* pResultBlock, STimeWindow* newWin) { SMergeIntervalAggOperatorInfo* miaInfo = pOperatorInfo->info; SIntervalAggOperatorInfo* iaInfo = &miaInfo->intervalAggOperatorInfo; SExecTaskInfo* pTaskInfo = pOperatorInfo->pTaskInfo; bool ascScan = (iaInfo->order == TSDB_ORDER_ASC); STimeWindow* prevWin = taosHashGet(miaInfo->groupIntervalHash, &tableGroupId, sizeof(tableGroupId)); if (prevWin == NULL) { taosHashPut(miaInfo->groupIntervalHash, &tableGroupId, sizeof(tableGroupId), newWin, sizeof(STimeWindow)); return 0; } if (newWin == NULL || (ascScan && newWin->skey > prevWin->ekey || (!ascScan) && newWin->skey < prevWin->ekey) ) { SET_RES_WINDOW_KEY(iaInfo->aggSup.keyBuf, &prevWin->skey, TSDB_KEYSIZE, tableGroupId); SResultRowPosition* p1 = (SResultRowPosition*)taosHashGet(iaInfo->aggSup.pResultRowHashTable, iaInfo->aggSup.keyBuf, GET_RES_WINDOW_KEY_LEN(TSDB_KEYSIZE)); ASSERT(p1 != NULL); finalizeResultRowIntoResultDataBlock(iaInfo->aggSup.pResultBuf, p1, iaInfo->binfo.pCtx, pOperatorInfo->pExpr, pOperatorInfo->numOfExprs, iaInfo->binfo.rowCellInfoOffset, pResultBlock, pTaskInfo); taosHashRemove(iaInfo->aggSup.pResultRowHashTable, iaInfo->aggSup.keyBuf, GET_RES_WINDOW_KEY_LEN(TSDB_KEYSIZE)); if (newWin == NULL) { taosHashRemove(miaInfo->groupIntervalHash, &tableGroupId, sizeof(tableGroupId)); } else { taosHashPut(miaInfo->groupIntervalHash, &tableGroupId, sizeof(tableGroupId), newWin, sizeof(STimeWindow)); } } 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; int32_t startPos = 0; int32_t numOfOutput = pOperatorInfo->numOfExprs; int64_t* tsCols = extractTsCol(pBlock, iaInfo); uint64_t tableGroupId = pBlock->info.groupId; bool ascScan = (iaInfo->order == TSDB_ORDER_ASC); TSKEY blockStartTs = getStartTsKey(&pBlock->info.window, tsCols); SResultRow* pResult = NULL; STimeWindow win = getActiveTimeWindow(iaInfo->aggSup.pResultBuf, pResultRowInfo, blockStartTs, &iaInfo->interval, iaInfo->interval.precision, &iaInfo->win); int32_t ret = setTimeWindowOutputBuf(pResultRowInfo, &win, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, iaInfo->binfo.pCtx, numOfOutput, iaInfo->binfo.rowCellInfoOffset, &iaInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS || pResult == NULL) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } TSKEY ekey = ascScan ? win.ekey : win.skey; int32_t forwardRows = getNumOfRowsInTimeWindow(&pBlock->info, tsCols, startPos, ekey, binarySearchForKey, NULL, iaInfo->order); ASSERT(forwardRows > 0); // prev time window not interpolation yet. if (iaInfo->timeWindowInterpo) { SResultRowPosition pos = addToOpenWindowList(pResultRowInfo, pResult); doInterpUnclosedTimeWindow(pOperatorInfo, numOfOutput, pResultRowInfo, pBlock, scanFlag, tsCols, &pos); // restore current time window ret = setTimeWindowOutputBuf(pResultRowInfo, &win, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, iaInfo->binfo.pCtx, numOfOutput, iaInfo->binfo.rowCellInfoOffset, &iaInfo->aggSup, pTaskInfo); if (ret != TSDB_CODE_SUCCESS) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } // window start key interpolation doWindowBorderInterpolation(iaInfo, pBlock, numOfOutput, iaInfo->binfo.pCtx, pResult, &win, startPos, forwardRows); } updateTimeWindowInfo(&iaInfo->twAggSup.timeWindowData, &win, true); doApplyFunctions(pTaskInfo, iaInfo->binfo.pCtx, &win, &iaInfo->twAggSup.timeWindowData, startPos, forwardRows, tsCols, pBlock->info.rows, numOfOutput, iaInfo->order); 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->order); if (startPos < 0) { break; } // null data, failed to allocate more memory buffer int32_t code = setTimeWindowOutputBuf(pResultRowInfo, &nextWin, (scanFlag == MAIN_SCAN), &pResult, tableGroupId, iaInfo->binfo.pCtx, numOfOutput, iaInfo->binfo.rowCellInfoOffset, &iaInfo->aggSup, pTaskInfo); if (code != TSDB_CODE_SUCCESS || pResult == NULL) { longjmp(pTaskInfo->env, TSDB_CODE_QRY_OUT_OF_MEMORY); } ekey = ascScan ? nextWin.ekey : nextWin.skey; forwardRows = getNumOfRowsInTimeWindow(&pBlock->info, tsCols, startPos, ekey, binarySearchForKey, NULL, iaInfo->order); // window start(end) key interpolation doWindowBorderInterpolation(iaInfo, pBlock, numOfOutput, iaInfo->binfo.pCtx, pResult, &nextWin, startPos, forwardRows); updateTimeWindowInfo(&iaInfo->twAggSup.timeWindowData, &nextWin, true); doApplyFunctions(pTaskInfo, iaInfo->binfo.pCtx, &nextWin, &iaInfo->twAggSup.timeWindowData, startPos, forwardRows, tsCols, pBlock->info.rows, numOfOutput, iaInfo->order); 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; 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.groupId; } if (pBlock == NULL) { miaInfo->inputBlocksFinished = true; break; } if (!miaInfo->hasGroupId) { miaInfo->hasGroupId = true; miaInfo->groupId = pBlock->info.groupId; } else if (miaInfo->groupId != pBlock->info.groupId) { miaInfo->prefetchedBlock = pBlock; break; } getTableScanInfo(pOperator, &iaInfo->order, &scanFlag); setInputDataBlock(pOperator, iaInfo->binfo.pCtx, pBlock, iaInfo->order, scanFlag, true); STableQueryInfo* pTableQueryInfo = iaInfo->pCurrent; setIntervalQueryRange(pTableQueryInfo, pBlock->info.window.skey, &pTaskInfo->window); doMergeIntervalAggImpl(pOperator, &iaInfo->binfo.resultRowInfo, pBlock, scanFlag, pRes); if (pRes->info.rows >= pOperator->resultInfo.threshold) { break; } } pRes->info.groupId = miaInfo->groupId; } else { void* p = taosHashIterate(miaInfo->groupIntervalHash, NULL); if (p != NULL) { size_t len = 0; uint64_t* pKey = taosHashGetKey(p, &len); outputPrevIntervalResult(pOperator, *pKey, pRes, NULL); } } if (pRes->info.rows == 0) { doSetOperatorCompleted(pOperator); } size_t rows = pRes->info.rows; pOperator->resultInfo.totalRows += rows; return (rows == 0) ? NULL : pRes; } SOperatorInfo* createMergeIntervalOperatorInfo(SOperatorInfo* downstream, SExprInfo* pExprInfo, int32_t numOfCols, SSDataBlock* pResBlock, SInterval* pInterval, int32_t primaryTsSlotId, SExecTaskInfo* pTaskInfo) { SMergeIntervalAggOperatorInfo* miaInfo = taosMemoryCalloc(1, sizeof(SMergeIntervalAggOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (miaInfo == NULL || pOperator == NULL) { goto _error; } SIntervalAggOperatorInfo* iaInfo = &miaInfo->intervalAggOperatorInfo; iaInfo->win = pTaskInfo->window; iaInfo->order = TSDB_ORDER_ASC; iaInfo->interval = *pInterval; iaInfo->execModel = pTaskInfo->execModel; iaInfo->primaryTsIndex = primaryTsSlotId; miaInfo->groupIntervalHash = taosHashInit(10, taosGetDefaultHashFunction(TSDB_DATA_TYPE_UBIGINT), true, HASH_NO_LOCK); size_t keyBufSize = sizeof(int64_t) + sizeof(int64_t) + POINTER_BYTES; initResultSizeInfo(pOperator, 4096); int32_t code = initAggInfo(&iaInfo->binfo, &iaInfo->aggSup, pExprInfo, numOfCols, pResBlock, keyBufSize, pTaskInfo->id.str); initExecTimeWindowInfo(&iaInfo->twAggSup.timeWindowData, &iaInfo->win); iaInfo->timeWindowInterpo = timeWindowinterpNeeded(iaInfo->binfo.pCtx, numOfCols, iaInfo); if (iaInfo->timeWindowInterpo) { iaInfo->binfo.resultRowInfo.openWindow = tdListNew(sizeof(SResultRowPosition)); } // iaInfo->pTableQueryInfo = initTableQueryInfo(pTableGroupInfo); if (code != TSDB_CODE_SUCCESS /* || iaInfo->pTableQueryInfo == NULL*/) { goto _error; } initResultRowInfo(&iaInfo->binfo.resultRowInfo, (int32_t)1); pOperator->name = "TimeMergeIntervalAggOperator"; pOperator->operatorType = QUERY_NODE_PHYSICAL_PLAN_MERGE_INTERVAL; pOperator->blocking = false; pOperator->status = OP_NOT_OPENED; pOperator->pExpr = pExprInfo; pOperator->pTaskInfo = pTaskInfo; pOperator->numOfExprs = numOfCols; pOperator->info = miaInfo; pOperator->fpSet = createOperatorFpSet(operatorDummyOpenFn, doMergeIntervalAgg, NULL, NULL, destroyMergeIntervalOperatorInfo, NULL, NULL, NULL); code = appendDownstream(pOperator, &downstream, 1); if (code != TSDB_CODE_SUCCESS) { goto _error; } return pOperator; _error: destroyMergeIntervalOperatorInfo(miaInfo, numOfCols); taosMemoryFreeClear(miaInfo); taosMemoryFreeClear(pOperator); pTaskInfo->code = code; return NULL; }