/* * 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 "executorInt.h" #include "filter.h" #include "function.h" #include "functionMgt.h" #include "operator.h" #include "querytask.h" #include "storageapi.h" #include "tcommon.h" #include "tcompare.h" #include "tdatablock.h" #include "tfill.h" #include "ttime.h" typedef struct STimeSliceOperatorInfo { SSDataBlock* pRes; STimeWindow win; SInterval interval; int64_t current; SArray* pPrevRow; // SArray SArray* pNextRow; // SArray SArray* pLinearInfo; // SArray bool isPrevRowSet; bool isNextRowSet; int32_t fillType; // fill type SColumn tsCol; // primary timestamp column SExprSupp scalarSup; // scalar calculation struct SFillColInfo* pFillColInfo; // fill column info int64_t prevTs; bool prevTsSet; uint64_t groupId; SGroupKeys* pPrevGroupKey; SSDataBlock* pNextGroupRes; SSDataBlock* pRemainRes; // save block unfinished processing int32_t remainIndex; // the remaining index in the block to be processed } STimeSliceOperatorInfo; static void destroyTimeSliceOperatorInfo(void* param); static void doKeepPrevRows(STimeSliceOperatorInfo* pSliceInfo, const SSDataBlock* pBlock, int32_t rowIndex) { int32_t numOfCols = taosArrayGetSize(pBlock->pDataBlock); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, i); SGroupKeys* pkey = taosArrayGet(pSliceInfo->pPrevRow, i); if (!colDataIsNull_s(pColInfoData, rowIndex)) { pkey->isNull = false; char* val = colDataGetData(pColInfoData, rowIndex); if (IS_VAR_DATA_TYPE(pkey->type)) { memcpy(pkey->pData, val, varDataLen(val)); } else { memcpy(pkey->pData, val, pkey->bytes); } } else { pkey->isNull = true; } } pSliceInfo->isPrevRowSet = true; } static void doKeepNextRows(STimeSliceOperatorInfo* pSliceInfo, const SSDataBlock* pBlock, int32_t rowIndex) { int32_t numOfCols = taosArrayGetSize(pBlock->pDataBlock); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, i); SGroupKeys* pkey = taosArrayGet(pSliceInfo->pNextRow, i); if (!colDataIsNull_s(pColInfoData, rowIndex)) { pkey->isNull = false; char* val = colDataGetData(pColInfoData, rowIndex); if (!IS_VAR_DATA_TYPE(pkey->type)) { memcpy(pkey->pData, val, pkey->bytes); } else { memcpy(pkey->pData, val, varDataLen(val)); } } else { pkey->isNull = true; } } pSliceInfo->isNextRowSet = true; } static void doKeepLinearInfo(STimeSliceOperatorInfo* pSliceInfo, const SSDataBlock* pBlock, int32_t rowIndex) { int32_t numOfCols = taosArrayGetSize(pBlock->pDataBlock); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pColInfoData = taosArrayGet(pBlock->pDataBlock, i); SColumnInfoData* pTsCol = taosArrayGet(pBlock->pDataBlock, pSliceInfo->tsCol.slotId); SFillLinearInfo* pLinearInfo = taosArrayGet(pSliceInfo->pLinearInfo, i); if (!IS_MATHABLE_TYPE(pColInfoData->info.type)) { continue; } // null value is represented by using key = INT64_MIN for now. // TODO: optimize to ignore null values for linear interpolation. if (!pLinearInfo->isStartSet) { if (!colDataIsNull_s(pColInfoData, rowIndex)) { pLinearInfo->start.key = *(int64_t*)colDataGetData(pTsCol, rowIndex); char* p = colDataGetData(pColInfoData, rowIndex); if (IS_VAR_DATA_TYPE(pColInfoData->info.type)) { ASSERT(varDataTLen(p) <= pColInfoData->info.bytes); memcpy(pLinearInfo->start.val, p, varDataTLen(p)); } else { memcpy(pLinearInfo->start.val, p, pLinearInfo->bytes); } } pLinearInfo->isStartSet = true; } else if (!pLinearInfo->isEndSet) { if (!colDataIsNull_s(pColInfoData, rowIndex)) { pLinearInfo->end.key = *(int64_t*)colDataGetData(pTsCol, rowIndex); char* p = colDataGetData(pColInfoData, rowIndex); if (IS_VAR_DATA_TYPE(pColInfoData->info.type)) { ASSERT(varDataTLen(p) <= pColInfoData->info.bytes); memcpy(pLinearInfo->end.val, p, varDataTLen(p)); } else { memcpy(pLinearInfo->end.val, p, pLinearInfo->bytes); } } pLinearInfo->isEndSet = true; } else { pLinearInfo->start.key = pLinearInfo->end.key; memcpy(pLinearInfo->start.val, pLinearInfo->end.val, pLinearInfo->bytes); if (!colDataIsNull_s(pColInfoData, rowIndex)) { pLinearInfo->end.key = *(int64_t*)colDataGetData(pTsCol, rowIndex); char* p = colDataGetData(pColInfoData, rowIndex); if (IS_VAR_DATA_TYPE(pColInfoData->info.type)) { ASSERT(varDataTLen(p) <= pColInfoData->info.bytes); memcpy(pLinearInfo->end.val, p, varDataTLen(p)); } else { memcpy(pLinearInfo->end.val, p, pLinearInfo->bytes); } } else { pLinearInfo->end.key = INT64_MIN; } } } } static FORCE_INLINE int32_t timeSliceEnsureBlockCapacity(STimeSliceOperatorInfo* pSliceInfo, SSDataBlock* pBlock) { if (pBlock->info.rows < pBlock->info.capacity) { return TSDB_CODE_SUCCESS; } uint32_t winNum = (pSliceInfo->win.ekey - pSliceInfo->win.skey) / pSliceInfo->interval.interval; uint32_t newRowsNum = pBlock->info.rows + TMIN(winNum / 4 + 1, 1048576); blockDataEnsureCapacity(pBlock, newRowsNum); return TSDB_CODE_SUCCESS; } static bool isIrowtsPseudoColumn(SExprInfo* pExprInfo) { char *name = pExprInfo->pExpr->_function.functionName; return (IS_TIMESTAMP_TYPE(pExprInfo->base.resSchema.type) && strcasecmp(name, "_irowts") == 0); } static bool isIsfilledPseudoColumn(SExprInfo* pExprInfo) { char *name = pExprInfo->pExpr->_function.functionName; return (IS_BOOLEAN_TYPE(pExprInfo->base.resSchema.type) && strcasecmp(name, "_isfilled") == 0); } static bool checkDuplicateTimestamps(STimeSliceOperatorInfo* pSliceInfo, SColumnInfoData* pTsCol, int32_t curIndex, int32_t rows) { int64_t currentTs = *(int64_t*)colDataGetData(pTsCol, curIndex); if (currentTs > pSliceInfo->win.ekey) { return false; } if ((pSliceInfo->prevTsSet == true) && (currentTs == pSliceInfo->prevTs)) { return true; } pSliceInfo->prevTsSet = true; pSliceInfo->prevTs = currentTs; if (currentTs == pSliceInfo->win.ekey && curIndex < rows - 1) { int64_t nextTs = *(int64_t*)colDataGetData(pTsCol, curIndex + 1); if (currentTs == nextTs) { return true; } } return false; } static bool isInterpFunc(SExprInfo* pExprInfo) { int32_t functionType = pExprInfo->pExpr->_function.functionType; return (functionType == FUNCTION_TYPE_INTERP); } static bool isGroupKeyFunc(SExprInfo* pExprInfo) { int32_t functionType = pExprInfo->pExpr->_function.functionType; return (functionType == FUNCTION_TYPE_GROUP_KEY); } static bool getIgoreNullRes(SExprSupp* pExprSup) { for (int32_t i = 0; i < pExprSup->numOfExprs; ++i) { SExprInfo* pExprInfo = &pExprSup->pExprInfo[i]; if (isInterpFunc(pExprInfo)) { for (int32_t j = 0; j < pExprInfo->base.numOfParams; ++j) { SFunctParam *pFuncParam = &pExprInfo->base.pParam[j]; if (pFuncParam->type == FUNC_PARAM_TYPE_VALUE) { return pFuncParam->param.i ? true : false; } } } } return false; } static bool checkNullRow(SExprSupp* pExprSup, SSDataBlock* pSrcBlock, int32_t index, bool ignoreNull) { if (!ignoreNull) { return false; } for (int32_t j = 0; j < pExprSup->numOfExprs; ++j) { SExprInfo* pExprInfo = &pExprSup->pExprInfo[j]; if (isInterpFunc(pExprInfo)) { int32_t srcSlot = pExprInfo->base.pParam[0].pCol->slotId; SColumnInfoData* pSrc = taosArrayGet(pSrcBlock->pDataBlock, srcSlot); if (colDataIsNull_s(pSrc, index)) { return true; } } } return false; } static bool genInterpolationResult(STimeSliceOperatorInfo* pSliceInfo, SExprSupp* pExprSup, SSDataBlock* pResBlock, SSDataBlock* pSrcBlock, int32_t index, bool beforeTs) { int32_t rows = pResBlock->info.rows; timeSliceEnsureBlockCapacity(pSliceInfo, pResBlock); // todo set the correct primary timestamp column // output the result int32_t fillColIndex = 0; bool hasInterp = true; for (int32_t j = 0; j < pExprSup->numOfExprs; ++j) { SExprInfo* pExprInfo = &pExprSup->pExprInfo[j]; int32_t dstSlot = pExprInfo->base.resSchema.slotId; SColumnInfoData* pDst = taosArrayGet(pResBlock->pDataBlock, dstSlot); if (isIrowtsPseudoColumn(pExprInfo)) { colDataSetVal(pDst, rows, (char*)&pSliceInfo->current, false); continue; } else if (isIsfilledPseudoColumn(pExprInfo)) { bool isFilled = true; colDataSetVal(pDst, pResBlock->info.rows, (char*)&isFilled, false); continue; } else if (!isInterpFunc(pExprInfo)) { if (isGroupKeyFunc(pExprInfo)) { if (pSrcBlock != NULL) { int32_t srcSlot = pExprInfo->base.pParam[0].pCol->slotId; SColumnInfoData* pSrc = taosArrayGet(pSrcBlock->pDataBlock, srcSlot); if (colDataIsNull_s(pSrc, index)) { colDataSetNULL(pDst, pResBlock->info.rows); continue; } char* v = colDataGetData(pSrc, index); colDataSetVal(pDst, pResBlock->info.rows, v, false); } else { // use stored group key SGroupKeys* pkey = pSliceInfo->pPrevGroupKey; if (pkey->isNull == false) { colDataSetVal(pDst, rows, pkey->pData, false); } else { colDataSetNULL(pDst, rows); } } } continue; } int32_t srcSlot = pExprInfo->base.pParam[0].pCol->slotId; switch (pSliceInfo->fillType) { case TSDB_FILL_NULL: case TSDB_FILL_NULL_F: { colDataSetNULL(pDst, rows); break; } case TSDB_FILL_SET_VALUE: case TSDB_FILL_SET_VALUE_F: { SVariant* pVar = &pSliceInfo->pFillColInfo[fillColIndex].fillVal; bool isNull = (TSDB_DATA_TYPE_NULL == pVar->nType) ? true : false; if (pDst->info.type == TSDB_DATA_TYPE_FLOAT) { float v = 0; if (!IS_VAR_DATA_TYPE(pVar->nType)) { GET_TYPED_DATA(v, float, pVar->nType, &pVar->f); } else { v = taosStr2Float(varDataVal(pVar->pz), NULL); } colDataSetVal(pDst, rows, (char*)&v, isNull); } else if (pDst->info.type == TSDB_DATA_TYPE_DOUBLE) { double v = 0; if (!IS_VAR_DATA_TYPE(pVar->nType)) { GET_TYPED_DATA(v, double, pVar->nType, &pVar->d); } else { v = taosStr2Double(varDataVal(pVar->pz), NULL); } colDataSetVal(pDst, rows, (char*)&v, isNull); } else if (IS_SIGNED_NUMERIC_TYPE(pDst->info.type)) { int64_t v = 0; if (!IS_VAR_DATA_TYPE(pVar->nType)) { GET_TYPED_DATA(v, int64_t, pVar->nType, &pVar->i); } else { v = taosStr2Int64(varDataVal(pVar->pz), NULL, 10); } colDataSetVal(pDst, rows, (char*)&v, isNull); } else if (IS_UNSIGNED_NUMERIC_TYPE(pDst->info.type)) { uint64_t v = 0; if (!IS_VAR_DATA_TYPE(pVar->nType)) { GET_TYPED_DATA(v, uint64_t, pVar->nType, &pVar->u); } else { v = taosStr2UInt64(varDataVal(pVar->pz), NULL, 10); } colDataSetVal(pDst, rows, (char*)&v, isNull); } else if (IS_BOOLEAN_TYPE(pDst->info.type)) { bool v = false; if (!IS_VAR_DATA_TYPE(pVar->nType)) { GET_TYPED_DATA(v, bool, pVar->nType, &pVar->i); } else { v = taosStr2Int8(varDataVal(pVar->pz), NULL, 10); } colDataSetVal(pDst, rows, (char*)&v, isNull); } ++fillColIndex; break; } case TSDB_FILL_LINEAR: { SFillLinearInfo* pLinearInfo = taosArrayGet(pSliceInfo->pLinearInfo, srcSlot); SPoint start = pLinearInfo->start; SPoint end = pLinearInfo->end; SPoint current = {.key = pSliceInfo->current}; // do not interpolate before ts range, only increate pSliceInfo->current if (beforeTs && !pLinearInfo->isEndSet) { return true; } if (!pLinearInfo->isStartSet || !pLinearInfo->isEndSet) { hasInterp = false; break; } if (end.key != INT64_MIN && end.key < pSliceInfo->current) { hasInterp = false; break; } if (start.key == INT64_MIN || end.key == INT64_MIN) { colDataSetNULL(pDst, rows); break; } current.val = taosMemoryCalloc(pLinearInfo->bytes, 1); taosGetLinearInterpolationVal(¤t, pLinearInfo->type, &start, &end, pLinearInfo->type); colDataSetVal(pDst, rows, (char*)current.val, false); taosMemoryFree(current.val); break; } case TSDB_FILL_PREV: { if (!pSliceInfo->isPrevRowSet) { hasInterp = false; break; } SGroupKeys* pkey = taosArrayGet(pSliceInfo->pPrevRow, srcSlot); if (pkey->isNull == false) { colDataSetVal(pDst, rows, pkey->pData, false); } else { colDataSetNULL(pDst, rows); } break; } case TSDB_FILL_NEXT: { if (!pSliceInfo->isNextRowSet) { hasInterp = false; break; } SGroupKeys* pkey = taosArrayGet(pSliceInfo->pNextRow, srcSlot); if (pkey->isNull == false) { colDataSetVal(pDst, rows, pkey->pData, false); } else { colDataSetNULL(pDst, rows); } break; } case TSDB_FILL_NONE: default: break; } } if (hasInterp) { pResBlock->info.rows += 1; } return hasInterp; } static void addCurrentRowToResult(STimeSliceOperatorInfo* pSliceInfo, SExprSupp* pExprSup, SSDataBlock* pResBlock, SSDataBlock* pSrcBlock, int32_t index) { timeSliceEnsureBlockCapacity(pSliceInfo, pResBlock); for (int32_t j = 0; j < pExprSup->numOfExprs; ++j) { SExprInfo* pExprInfo = &pExprSup->pExprInfo[j]; int32_t dstSlot = pExprInfo->base.resSchema.slotId; SColumnInfoData* pDst = taosArrayGet(pResBlock->pDataBlock, dstSlot); if (isIrowtsPseudoColumn(pExprInfo)) { colDataSetVal(pDst, pResBlock->info.rows, (char*)&pSliceInfo->current, false); } else if (isIsfilledPseudoColumn(pExprInfo)) { bool isFilled = false; colDataSetVal(pDst, pResBlock->info.rows, (char*)&isFilled, false); } else { int32_t srcSlot = pExprInfo->base.pParam[0].pCol->slotId; SColumnInfoData* pSrc = taosArrayGet(pSrcBlock->pDataBlock, srcSlot); if (colDataIsNull_s(pSrc, index)) { colDataSetNULL(pDst, pResBlock->info.rows); continue; } char* v = colDataGetData(pSrc, index); colDataSetVal(pDst, pResBlock->info.rows, v, false); } } pResBlock->info.rows += 1; return; } static int32_t initPrevRowsKeeper(STimeSliceOperatorInfo* pInfo, SSDataBlock* pBlock) { if (pInfo->pPrevRow != NULL) { return TSDB_CODE_SUCCESS; } pInfo->pPrevRow = taosArrayInit(4, sizeof(SGroupKeys)); if (pInfo->pPrevRow == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t numOfCols = taosArrayGetSize(pBlock->pDataBlock); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pColInfo = taosArrayGet(pBlock->pDataBlock, i); SGroupKeys key = {0}; key.bytes = pColInfo->info.bytes; key.type = pColInfo->info.type; key.isNull = false; key.pData = taosMemoryCalloc(1, pColInfo->info.bytes); taosArrayPush(pInfo->pPrevRow, &key); } pInfo->isPrevRowSet = false; return TSDB_CODE_SUCCESS; } static int32_t initNextRowsKeeper(STimeSliceOperatorInfo* pInfo, SSDataBlock* pBlock) { if (pInfo->pNextRow != NULL) { return TSDB_CODE_SUCCESS; } pInfo->pNextRow = taosArrayInit(4, sizeof(SGroupKeys)); if (pInfo->pNextRow == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t numOfCols = taosArrayGetSize(pBlock->pDataBlock); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pColInfo = taosArrayGet(pBlock->pDataBlock, i); SGroupKeys key = {0}; key.bytes = pColInfo->info.bytes; key.type = pColInfo->info.type; key.isNull = false; key.pData = taosMemoryCalloc(1, pColInfo->info.bytes); taosArrayPush(pInfo->pNextRow, &key); } pInfo->isNextRowSet = false; return TSDB_CODE_SUCCESS; } static int32_t initFillLinearInfo(STimeSliceOperatorInfo* pInfo, SSDataBlock* pBlock) { if (pInfo->pLinearInfo != NULL) { return TSDB_CODE_SUCCESS; } pInfo->pLinearInfo = taosArrayInit(4, sizeof(SFillLinearInfo)); if (pInfo->pLinearInfo == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } int32_t numOfCols = taosArrayGetSize(pBlock->pDataBlock); for (int32_t i = 0; i < numOfCols; ++i) { SColumnInfoData* pColInfo = taosArrayGet(pBlock->pDataBlock, i); SFillLinearInfo linearInfo = {0}; linearInfo.start.key = INT64_MIN; linearInfo.end.key = INT64_MIN; linearInfo.start.val = taosMemoryCalloc(1, pColInfo->info.bytes); linearInfo.end.val = taosMemoryCalloc(1, pColInfo->info.bytes); linearInfo.isStartSet = false; linearInfo.isEndSet = false; linearInfo.type = pColInfo->info.type; linearInfo.bytes = pColInfo->info.bytes; taosArrayPush(pInfo->pLinearInfo, &linearInfo); } return TSDB_CODE_SUCCESS; } static int32_t initGroupKeyKeeper(STimeSliceOperatorInfo* pInfo, SExprSupp* pExprSup) { if (pInfo->pPrevGroupKey != NULL) { return TSDB_CODE_SUCCESS; } pInfo->pPrevGroupKey = taosMemoryCalloc(1, sizeof(SGroupKeys)); if (pInfo->pPrevGroupKey == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } for (int32_t i = 0; i < pExprSup->numOfExprs; ++i) { SExprInfo* pExprInfo = &pExprSup->pExprInfo[i]; if (isGroupKeyFunc(pExprInfo)) { pInfo->pPrevGroupKey->bytes = pExprInfo->base.resSchema.bytes; pInfo->pPrevGroupKey->type = pExprInfo->base.resSchema.type; pInfo->pPrevGroupKey->isNull = false; pInfo->pPrevGroupKey->pData = taosMemoryCalloc(1, pInfo->pPrevGroupKey->bytes); } } return TSDB_CODE_SUCCESS; } static int32_t initKeeperInfo(STimeSliceOperatorInfo* pInfo, SSDataBlock* pBlock, SExprSupp* pExprSup) { int32_t code; code = initPrevRowsKeeper(pInfo, pBlock); if (code != TSDB_CODE_SUCCESS) { return TSDB_CODE_FAILED; } code = initNextRowsKeeper(pInfo, pBlock); if (code != TSDB_CODE_SUCCESS) { return TSDB_CODE_FAILED; } code = initFillLinearInfo(pInfo, pBlock); if (code != TSDB_CODE_SUCCESS) { return TSDB_CODE_FAILED; } code = initGroupKeyKeeper(pInfo, pExprSup); if (code != TSDB_CODE_SUCCESS) { return TSDB_CODE_FAILED; } return TSDB_CODE_SUCCESS; } static int32_t resetPrevRowsKeeper(STimeSliceOperatorInfo* pInfo) { if (pInfo->pPrevRow == NULL) { return TSDB_CODE_SUCCESS; } for (int32_t i = 0; i < taosArrayGetSize(pInfo->pLinearInfo); ++i) { SGroupKeys *pKey = taosArrayGet(pInfo->pPrevRow, i); pKey->isNull = false; } pInfo->isPrevRowSet = false; return TSDB_CODE_SUCCESS; } static int32_t resetNextRowsKeeper(STimeSliceOperatorInfo* pInfo) { if (pInfo->pNextRow == NULL) { return TSDB_CODE_SUCCESS; } for (int32_t i = 0; i < taosArrayGetSize(pInfo->pLinearInfo); ++i) { SGroupKeys *pKey = taosArrayGet(pInfo->pPrevRow, i); pKey->isNull = false; } pInfo->isNextRowSet = false; return TSDB_CODE_SUCCESS; } static int32_t resetFillLinearInfo(STimeSliceOperatorInfo* pInfo) { if (pInfo->pLinearInfo == NULL) { return TSDB_CODE_SUCCESS; } for (int32_t i = 0; i < taosArrayGetSize(pInfo->pLinearInfo); ++i) { SFillLinearInfo *pLinearInfo = taosArrayGet(pInfo->pLinearInfo, i); pLinearInfo->start.key = INT64_MIN; pLinearInfo->end.key = INT64_MIN; pLinearInfo->isStartSet = false; pLinearInfo->isEndSet = false; } return TSDB_CODE_SUCCESS; } static int32_t resetKeeperInfo(STimeSliceOperatorInfo* pInfo) { resetPrevRowsKeeper(pInfo); resetNextRowsKeeper(pInfo); resetFillLinearInfo(pInfo); return TSDB_CODE_SUCCESS; } static bool checkThresholdReached(STimeSliceOperatorInfo* pSliceInfo, int32_t threshold) { SSDataBlock* pResBlock = pSliceInfo->pRes; if (pResBlock->info.rows > threshold) { return true; } return false; } static bool checkWindowBoundReached(STimeSliceOperatorInfo* pSliceInfo) { if (pSliceInfo->current > pSliceInfo->win.ekey) { return true; } return false; } static void saveBlockStatus(STimeSliceOperatorInfo* pSliceInfo, SSDataBlock* pBlock, int32_t curIndex) { SSDataBlock* pResBlock = pSliceInfo->pRes; SColumnInfoData* pTsCol = taosArrayGet(pBlock->pDataBlock, pSliceInfo->tsCol.slotId); if (curIndex < pBlock->info.rows - 1) { pSliceInfo->pRemainRes = pBlock; pSliceInfo->remainIndex = curIndex + 1; return; } // all data in remaining block processed pSliceInfo->pRemainRes = NULL; } static void doTimesliceImpl(SOperatorInfo* pOperator, STimeSliceOperatorInfo* pSliceInfo, SSDataBlock* pBlock, SExecTaskInfo* pTaskInfo, bool ignoreNull) { SSDataBlock* pResBlock = pSliceInfo->pRes; SInterval* pInterval = &pSliceInfo->interval; SColumnInfoData* pTsCol = taosArrayGet(pBlock->pDataBlock, pSliceInfo->tsCol.slotId); int32_t i = (pSliceInfo->pRemainRes == NULL) ? 0 : pSliceInfo->remainIndex; for (; i < pBlock->info.rows; ++i) { int64_t ts = *(int64_t*)colDataGetData(pTsCol, i); // check for duplicate timestamps if (checkDuplicateTimestamps(pSliceInfo, pTsCol, i, pBlock->info.rows)) { T_LONG_JMP(pTaskInfo->env, TSDB_CODE_FUNC_DUP_TIMESTAMP); } if (checkNullRow(&pOperator->exprSupp, pBlock, i, ignoreNull)) { continue; } if (ts == pSliceInfo->current) { addCurrentRowToResult(pSliceInfo, &pOperator->exprSupp, pResBlock, pBlock, i); doKeepPrevRows(pSliceInfo, pBlock, i); doKeepLinearInfo(pSliceInfo, pBlock, i); pSliceInfo->current = taosTimeAdd(pSliceInfo->current, pInterval->interval, pInterval->intervalUnit, pInterval->precision); if (checkWindowBoundReached(pSliceInfo)) { break; } if (checkThresholdReached(pSliceInfo, pOperator->resultInfo.threshold)) { saveBlockStatus(pSliceInfo, pBlock, i); return; } } else if (ts < pSliceInfo->current) { // in case of interpolation window starts and ends between two datapoints, fill(prev) need to interpolate doKeepPrevRows(pSliceInfo, pBlock, i); doKeepLinearInfo(pSliceInfo, pBlock, i); if (i < pBlock->info.rows - 1) { // in case of interpolation window starts and ends between two datapoints, fill(next) need to interpolate doKeepNextRows(pSliceInfo, pBlock, i + 1); int64_t nextTs = *(int64_t*)colDataGetData(pTsCol, i + 1); if (nextTs > pSliceInfo->current) { while (pSliceInfo->current < nextTs && pSliceInfo->current <= pSliceInfo->win.ekey) { if (!genInterpolationResult(pSliceInfo, &pOperator->exprSupp, pResBlock, pBlock, i, false) && pSliceInfo->fillType == TSDB_FILL_LINEAR) { break; } else { pSliceInfo->current = taosTimeAdd(pSliceInfo->current, pInterval->interval, pInterval->intervalUnit, pInterval->precision); } } if (checkWindowBoundReached(pSliceInfo)) { break; } if (checkThresholdReached(pSliceInfo, pOperator->resultInfo.threshold)) { saveBlockStatus(pSliceInfo, pBlock, i); return; } } else { // ignore current row, and do nothing } } else { // it is the last row of current block doKeepPrevRows(pSliceInfo, pBlock, i); } } else { // ts > pSliceInfo->current // in case of interpolation window starts and ends between two datapoints, fill(next) need to interpolate doKeepNextRows(pSliceInfo, pBlock, i); doKeepLinearInfo(pSliceInfo, pBlock, i); while (pSliceInfo->current < ts && pSliceInfo->current <= pSliceInfo->win.ekey) { if (!genInterpolationResult(pSliceInfo, &pOperator->exprSupp, pResBlock, pBlock, i, true) && pSliceInfo->fillType == TSDB_FILL_LINEAR) { break; } else { pSliceInfo->current = taosTimeAdd(pSliceInfo->current, pInterval->interval, pInterval->intervalUnit, pInterval->precision); } } // add current row if timestamp match if (ts == pSliceInfo->current && pSliceInfo->current <= pSliceInfo->win.ekey) { addCurrentRowToResult(pSliceInfo, &pOperator->exprSupp, pResBlock, pBlock, i); pSliceInfo->current = taosTimeAdd(pSliceInfo->current, pInterval->interval, pInterval->intervalUnit, pInterval->precision); } doKeepPrevRows(pSliceInfo, pBlock, i); if (checkWindowBoundReached(pSliceInfo)) { break; } if (checkThresholdReached(pSliceInfo, pOperator->resultInfo.threshold)) { saveBlockStatus(pSliceInfo, pBlock, i); return; } } } // if reached here, meaning block processing finished naturally, // or interpolation reach window upper bound pSliceInfo->pRemainRes = NULL; } static void genInterpAfterDataBlock(STimeSliceOperatorInfo* pSliceInfo, SOperatorInfo* pOperator, int32_t index) { SSDataBlock* pResBlock = pSliceInfo->pRes; SInterval* pInterval = &pSliceInfo->interval; while (pSliceInfo->current <= pSliceInfo->win.ekey && pSliceInfo->fillType != TSDB_FILL_NEXT && pSliceInfo->fillType != TSDB_FILL_LINEAR) { genInterpolationResult(pSliceInfo, &pOperator->exprSupp, pResBlock, NULL, index, false); pSliceInfo->current = taosTimeAdd(pSliceInfo->current, pInterval->interval, pInterval->intervalUnit, pInterval->precision); } } static void copyPrevGroupKey(SExprSupp* pExprSup, SGroupKeys* pGroupKey, SSDataBlock* pSrcBlock) { for (int32_t j = 0; j < pExprSup->numOfExprs; ++j) { SExprInfo* pExprInfo = &pExprSup->pExprInfo[j]; if (isGroupKeyFunc(pExprInfo)) { int32_t srcSlot = pExprInfo->base.pParam[0].pCol->slotId; SColumnInfoData* pSrc = taosArrayGet(pSrcBlock->pDataBlock, srcSlot); if (colDataIsNull_s(pSrc, 0)) { pGroupKey->isNull = true; break; } char* v = colDataGetData(pSrc, 0); if (IS_VAR_DATA_TYPE(pGroupKey->type)) { memcpy(pGroupKey->pData, v, varDataTLen(v)); } else { memcpy(pGroupKey->pData, v, pGroupKey->bytes); } pGroupKey->isNull = false; break; } } } static void resetTimesliceInfo(STimeSliceOperatorInfo* pSliceInfo) { pSliceInfo->current = pSliceInfo->win.skey; pSliceInfo->prevTsSet = false; resetKeeperInfo(pSliceInfo); } static void doHandleTimeslice(SOperatorInfo* pOperator, SSDataBlock* pBlock) { SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; STimeSliceOperatorInfo* pSliceInfo = pOperator->info; SExprSupp* pSup = &pOperator->exprSupp; bool ignoreNull = getIgoreNullRes(pSup); int32_t order = TSDB_ORDER_ASC; if (checkWindowBoundReached(pSliceInfo)) { return; } int32_t code = initKeeperInfo(pSliceInfo, pBlock, &pOperator->exprSupp); if (code != TSDB_CODE_SUCCESS) { T_LONG_JMP(pTaskInfo->env, code); } if (pSliceInfo->scalarSup.pExprInfo != NULL) { SExprSupp* pExprSup = &pSliceInfo->scalarSup; projectApplyFunctions(pExprSup->pExprInfo, pBlock, pBlock, pExprSup->pCtx, pExprSup->numOfExprs, NULL); } // the pDataBlock are always the same one, no need to call this again setInputDataBlock(pSup, pBlock, order, MAIN_SCAN, true); doTimesliceImpl(pOperator, pSliceInfo, pBlock, pTaskInfo, ignoreNull); copyPrevGroupKey(&pOperator->exprSupp, pSliceInfo->pPrevGroupKey, pBlock); } static SSDataBlock* doTimeslice(SOperatorInfo* pOperator) { if (pOperator->status == OP_EXEC_DONE) { return NULL; } SExecTaskInfo* pTaskInfo = pOperator->pTaskInfo; STimeSliceOperatorInfo* pSliceInfo = pOperator->info; SSDataBlock* pResBlock = pSliceInfo->pRes; SOperatorInfo* downstream = pOperator->pDownstream[0]; blockDataCleanup(pResBlock); while (1) { if (pSliceInfo->pNextGroupRes != NULL) { doHandleTimeslice(pOperator, pSliceInfo->pNextGroupRes); if (checkWindowBoundReached(pSliceInfo) || checkThresholdReached(pSliceInfo, pOperator->resultInfo.threshold)) { doFilter(pResBlock, pOperator->exprSupp.pFilterInfo, NULL); if (pSliceInfo->pRemainRes == NULL) { pSliceInfo->pNextGroupRes = NULL; } if (pResBlock->info.rows != 0) { goto _finished; } else { // after fillter if result block has 0 rows, go back to // process pNextGroupRes again for unfinished data continue; } } pSliceInfo->pNextGroupRes = NULL; } while (1) { SSDataBlock* pBlock = pSliceInfo->pRemainRes ? pSliceInfo->pRemainRes : downstream->fpSet.getNextFn(downstream); if (pBlock == NULL) { setOperatorCompleted(pOperator); break; } pResBlock->info.scanFlag = pBlock->info.scanFlag; if (pSliceInfo->groupId == 0 && pBlock->info.id.groupId != 0) { pSliceInfo->groupId = pBlock->info.id.groupId; } else { if (pSliceInfo->groupId != pBlock->info.id.groupId) { pSliceInfo->groupId = pBlock->info.id.groupId; pSliceInfo->pNextGroupRes = pBlock; break; } } doHandleTimeslice(pOperator, pBlock); if (checkWindowBoundReached(pSliceInfo) || checkThresholdReached(pSliceInfo, pOperator->resultInfo.threshold)) { doFilter(pResBlock, pOperator->exprSupp.pFilterInfo, NULL); if (pResBlock->info.rows != 0) { goto _finished; } } } // post work for a specific group // check if need to interpolate after last datablock // except for fill(next), fill(linear) genInterpAfterDataBlock(pSliceInfo, pOperator, 0); doFilter(pResBlock, pOperator->exprSupp.pFilterInfo, NULL); if (pOperator->status == OP_EXEC_DONE) { break; } // restore initial value for next group resetTimesliceInfo(pSliceInfo); if (pResBlock->info.rows != 0) { break; } } _finished: // restore the value setTaskStatus(pOperator->pTaskInfo, TASK_COMPLETED); if (pResBlock->info.rows == 0) { pOperator->status = OP_EXEC_DONE; } return pResBlock->info.rows == 0 ? NULL : pResBlock; } SOperatorInfo* createTimeSliceOperatorInfo(SOperatorInfo* downstream, SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo) { STimeSliceOperatorInfo* pInfo = taosMemoryCalloc(1, sizeof(STimeSliceOperatorInfo)); SOperatorInfo* pOperator = taosMemoryCalloc(1, sizeof(SOperatorInfo)); if (pOperator == NULL || pInfo == NULL) { goto _error; } SInterpFuncPhysiNode* pInterpPhyNode = (SInterpFuncPhysiNode*)pPhyNode; SExprSupp* pSup = &pOperator->exprSupp; int32_t numOfExprs = 0; SExprInfo* pExprInfo = createExprInfo(pInterpPhyNode->pFuncs, NULL, &numOfExprs); int32_t code = initExprSupp(pSup, pExprInfo, numOfExprs, &pTaskInfo->storageAPI.functionStore); if (code != TSDB_CODE_SUCCESS) { goto _error; } if (pInterpPhyNode->pExprs != NULL) { int32_t num = 0; SExprInfo* pScalarExprInfo = createExprInfo(pInterpPhyNode->pExprs, NULL, &num); code = initExprSupp(&pInfo->scalarSup, pScalarExprInfo, num, &pTaskInfo->storageAPI.functionStore); if (code != TSDB_CODE_SUCCESS) { goto _error; } } code = filterInitFromNode((SNode*)pInterpPhyNode->node.pConditions, &pOperator->exprSupp.pFilterInfo, 0); if (code != TSDB_CODE_SUCCESS) { goto _error; } pInfo->tsCol = extractColumnFromColumnNode((SColumnNode*)pInterpPhyNode->pTimeSeries); pInfo->fillType = convertFillType(pInterpPhyNode->fillMode); initResultSizeInfo(&pOperator->resultInfo, 4096); pInfo->pFillColInfo = createFillColInfo(pExprInfo, numOfExprs, NULL, 0, (SNodeListNode*)pInterpPhyNode->pFillValues); pInfo->pLinearInfo = NULL; pInfo->pRes = createDataBlockFromDescNode(pPhyNode->pOutputDataBlockDesc); pInfo->win = pInterpPhyNode->timeRange; pInfo->interval.interval = pInterpPhyNode->interval; pInfo->current = pInfo->win.skey; pInfo->prevTsSet = false; pInfo->prevTs = 0; pInfo->groupId = 0; pInfo->pPrevGroupKey = NULL; pInfo->pNextGroupRes = NULL; pInfo->pRemainRes = NULL; pInfo->remainIndex = 0; if (downstream->operatorType == QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN) { STableScanInfo* pScanInfo = (STableScanInfo*)downstream->info; pScanInfo->base.cond.twindows = pInfo->win; pScanInfo->base.cond.type = TIMEWINDOW_RANGE_EXTERNAL; } setOperatorInfo(pOperator, "TimeSliceOperator", QUERY_NODE_PHYSICAL_PLAN_INTERP_FUNC, false, OP_NOT_OPENED, pInfo, pTaskInfo); pOperator->fpSet = createOperatorFpSet(optrDummyOpenFn, doTimeslice, NULL, destroyTimeSliceOperatorInfo, optrDefaultBufFn, NULL); blockDataEnsureCapacity(pInfo->pRes, pOperator->resultInfo.capacity); code = appendDownstream(pOperator, &downstream, 1); return pOperator; _error: taosMemoryFree(pInfo); taosMemoryFree(pOperator); pTaskInfo->code = TSDB_CODE_OUT_OF_MEMORY; return NULL; } void destroyTimeSliceOperatorInfo(void* param) { STimeSliceOperatorInfo* pInfo = (STimeSliceOperatorInfo*)param; pInfo->pRes = blockDataDestroy(pInfo->pRes); for (int32_t i = 0; i < taosArrayGetSize(pInfo->pPrevRow); ++i) { SGroupKeys* pKey = taosArrayGet(pInfo->pPrevRow, i); taosMemoryFree(pKey->pData); } taosArrayDestroy(pInfo->pPrevRow); for (int32_t i = 0; i < taosArrayGetSize(pInfo->pNextRow); ++i) { SGroupKeys* pKey = taosArrayGet(pInfo->pNextRow, i); taosMemoryFree(pKey->pData); } taosArrayDestroy(pInfo->pNextRow); for (int32_t i = 0; i < taosArrayGetSize(pInfo->pLinearInfo); ++i) { SFillLinearInfo* pKey = taosArrayGet(pInfo->pLinearInfo, i); taosMemoryFree(pKey->start.val); taosMemoryFree(pKey->end.val); } taosArrayDestroy(pInfo->pLinearInfo); if (pInfo->pPrevGroupKey) { taosMemoryFree(pInfo->pPrevGroupKey->pData); taosMemoryFree(pInfo->pPrevGroupKey); } cleanupExprSupp(&pInfo->scalarSup); for (int32_t i = 0; i < pInfo->pFillColInfo->numOfFillExpr; ++i) { taosVariantDestroy(&pInfo->pFillColInfo[i].fillVal); } taosMemoryFree(pInfo->pFillColInfo); taosMemoryFreeClear(param); }