/* * 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 "filter.h" #include "os.h" #include "query.h" #include "taosdef.h" #include "tmsg.h" #include "ttypes.h" #include "executorimpl.h" #include "tcommon.h" #include "thash.h" #include "ttime.h" #include "executorInt.h" #include "function.h" #include "querynodes.h" #include "tdatablock.h" #include "tfill.h" #define FILL_IS_ASC_FILL(_f) ((_f)->order == TSDB_ORDER_ASC) #define DO_INTERPOLATION(_v1, _v2, _k1, _k2, _k) \ ((_v1) + ((_v2) - (_v1)) * (((double)(_k)) - ((double)(_k1))) / (((double)(_k2)) - ((double)(_k1)))) static void doSetVal(SColumnInfoData* pDstColInfoData, int32_t rowIndex, const SGroupKeys* pKey); static void setNotFillColumn(SFillInfo* pFillInfo, SColumnInfoData* pDstColInfo, int32_t rowIndex, int32_t colIdx) { SRowVal* p = NULL; if (pFillInfo->type == TSDB_FILL_NEXT) { p = FILL_IS_ASC_FILL(pFillInfo) ? &pFillInfo->next : &pFillInfo->prev; } else { p = FILL_IS_ASC_FILL(pFillInfo) ? &pFillInfo->prev : &pFillInfo->next; } SGroupKeys* pKey = taosArrayGet(p->pRowVal, colIdx); doSetVal(pDstColInfo, rowIndex, pKey); } static void setNullRow(SSDataBlock* pBlock, SFillInfo* pFillInfo, int32_t rowIndex) { for (int32_t i = 0; i < pFillInfo->numOfCols; ++i) { SFillColInfo* pCol = &pFillInfo->pFillCol[i]; int32_t dstSlotId = GET_DEST_SLOT_ID(pCol); SColumnInfoData* pDstColInfo = taosArrayGet(pBlock->pDataBlock, dstSlotId); if (pCol->notFillCol) { bool filled = fillIfWindowPseudoColumn(pFillInfo, pCol, pDstColInfo, rowIndex); if (!filled) { setNotFillColumn(pFillInfo, pDstColInfo, rowIndex, i); } } else { colDataSetNULL(pDstColInfo, rowIndex); } } } static void doSetUserSpecifiedValue(SColumnInfoData* pDst, SVariant* pVar, int32_t rowIndex, int64_t currentKey) { if (pDst->info.type == TSDB_DATA_TYPE_FLOAT) { float v = 0; GET_TYPED_DATA(v, float, pVar->nType, &pVar->i); colDataSetVal(pDst, rowIndex, (char*)&v, false); } else if (pDst->info.type == TSDB_DATA_TYPE_DOUBLE) { double v = 0; GET_TYPED_DATA(v, double, pVar->nType, &pVar->i); colDataSetVal(pDst, rowIndex, (char*)&v, false); } else if (IS_SIGNED_NUMERIC_TYPE(pDst->info.type)) { int64_t v = 0; GET_TYPED_DATA(v, int64_t, pVar->nType, &pVar->i); colDataSetVal(pDst, rowIndex, (char*)&v, false); } else if (pDst->info.type == TSDB_DATA_TYPE_TIMESTAMP) { colDataSetVal(pDst, rowIndex, (const char*)¤tKey, false); } else { // varchar/nchar data colDataSetNULL(pDst, rowIndex); } } // fill windows pseudo column, _wstart, _wend, _wduration and return true, otherwise return false bool fillIfWindowPseudoColumn(SFillInfo* pFillInfo, SFillColInfo* pCol, SColumnInfoData* pDstColInfoData, int32_t rowIndex) { if (!pCol->notFillCol) { return false; } if (pCol->pExpr->pExpr->nodeType == QUERY_NODE_COLUMN) { if (pCol->pExpr->base.numOfParams != 1) { return false; } if (pCol->pExpr->base.pParam[0].pCol->colType == COLUMN_TYPE_WINDOW_START) { colDataSetVal(pDstColInfoData, rowIndex, (const char*)&pFillInfo->currentKey, false); return true; } else if (pCol->pExpr->base.pParam[0].pCol->colType == COLUMN_TYPE_WINDOW_END) { // TODO: include endpoint SInterval* pInterval = &pFillInfo->interval; int64_t windowEnd = taosTimeAdd(pFillInfo->currentKey, pInterval->interval, pInterval->intervalUnit, pInterval->precision); colDataSetVal(pDstColInfoData, rowIndex, (const char*)&windowEnd, false); return true; } else if (pCol->pExpr->base.pParam[0].pCol->colType == COLUMN_TYPE_WINDOW_DURATION) { // TODO: include endpoint colDataSetVal(pDstColInfoData, rowIndex, (const char*)&pFillInfo->interval.sliding, false); return true; } } return false; } static void doFillOneRow(SFillInfo* pFillInfo, SSDataBlock* pBlock, SSDataBlock* pSrcBlock, int64_t ts, bool outOfBound) { SPoint point1, point2, point; int32_t step = GET_FORWARD_DIRECTION_FACTOR(pFillInfo->order); // set the primary timestamp column value int32_t index = pBlock->info.rows; // set the other values if (pFillInfo->type == TSDB_FILL_PREV) { for (int32_t i = 0; i < pFillInfo->numOfCols; ++i) { SFillColInfo* pCol = &pFillInfo->pFillCol[i]; SColumnInfoData* pDstColInfoData = taosArrayGet(pBlock->pDataBlock, GET_DEST_SLOT_ID(pCol)); bool filled = fillIfWindowPseudoColumn(pFillInfo, pCol, pDstColInfoData, index); if (!filled) { setNotFillColumn(pFillInfo, pDstColInfoData, index, i); } } } else if (pFillInfo->type == TSDB_FILL_NEXT) { // todo refactor: start from 0 not 1 for (int32_t i = 0; i < pFillInfo->numOfCols; ++i) { SFillColInfo* pCol = &pFillInfo->pFillCol[i]; SColumnInfoData* pDstColInfoData = taosArrayGet(pBlock->pDataBlock, GET_DEST_SLOT_ID(pCol)); bool filled = fillIfWindowPseudoColumn(pFillInfo, pCol, pDstColInfoData, index); if (!filled) { setNotFillColumn(pFillInfo, pDstColInfoData, index, i); } } } else if (pFillInfo->type == TSDB_FILL_LINEAR) { // TODO : linear interpolation supports NULL value if (outOfBound) { setNullRow(pBlock, pFillInfo, index); } else { for (int32_t i = 0; i < pFillInfo->numOfCols; ++i) { SFillColInfo* pCol = &pFillInfo->pFillCol[i]; int32_t dstSlotId = GET_DEST_SLOT_ID(pCol); SColumnInfoData* pDstCol = taosArrayGet(pBlock->pDataBlock, dstSlotId); int16_t type = pDstCol->info.type; if (pCol->notFillCol) { bool filled = fillIfWindowPseudoColumn(pFillInfo, pCol, pDstCol, index); if (!filled) { setNotFillColumn(pFillInfo, pDstCol, index, i); } } else { SGroupKeys* pKey = taosArrayGet(pFillInfo->prev.pRowVal, i); if (IS_VAR_DATA_TYPE(type) || type == TSDB_DATA_TYPE_BOOL || pKey->isNull) { colDataSetNULL(pDstCol, index); continue; } SGroupKeys* pKey1 = taosArrayGet(pFillInfo->prev.pRowVal, pFillInfo->tsSlotId); int64_t prevTs = *(int64_t*)pKey1->pData; int32_t srcSlotId = GET_DEST_SLOT_ID(pCol); SColumnInfoData* pSrcCol = taosArrayGet(pSrcBlock->pDataBlock, srcSlotId); char* data = colDataGetData(pSrcCol, pFillInfo->index); point1 = (SPoint){.key = prevTs, .val = pKey->pData}; point2 = (SPoint){.key = ts, .val = data}; int64_t out = 0; point = (SPoint){.key = pFillInfo->currentKey, .val = &out}; taosGetLinearInterpolationVal(&point, type, &point1, &point2, type); colDataSetVal(pDstCol, index, (const char*)&out, false); } } } } else if (pFillInfo->type == TSDB_FILL_NULL || pFillInfo->type == TSDB_FILL_NULL_F) { // fill with NULL setNullRow(pBlock, pFillInfo, index); } else { // fill with user specified value for each column for (int32_t i = 0; i < pFillInfo->numOfCols; ++i) { SFillColInfo* pCol = &pFillInfo->pFillCol[i]; int32_t slotId = GET_DEST_SLOT_ID(pCol); SColumnInfoData* pDst = taosArrayGet(pBlock->pDataBlock, slotId); if (pCol->notFillCol) { bool filled = fillIfWindowPseudoColumn(pFillInfo, pCol, pDst, index); if (!filled) { setNotFillColumn(pFillInfo, pDst, index, i); } } else { SVariant* pVar = &pFillInfo->pFillCol[i].fillVal; doSetUserSpecifiedValue(pDst, pVar, index, pFillInfo->currentKey); } } } // setTagsValue(pFillInfo, data, index); SInterval* pInterval = &pFillInfo->interval; pFillInfo->currentKey = taosTimeAdd(pFillInfo->currentKey, pInterval->sliding * step, pInterval->slidingUnit, pInterval->precision); pBlock->info.rows += 1; pFillInfo->numOfCurrent++; } void doSetVal(SColumnInfoData* pDstCol, int32_t rowIndex, const SGroupKeys* pKey) { if (pKey->isNull) { colDataSetNULL(pDstCol, rowIndex); } else { colDataSetVal(pDstCol, rowIndex, pKey->pData, false); } } static void initBeforeAfterDataBuf(SFillInfo* pFillInfo) { if (taosArrayGetSize(pFillInfo->next.pRowVal) > 0) { return; } for (int i = 0; i < pFillInfo->numOfCols; i++) { SFillColInfo* pCol = &pFillInfo->pFillCol[i]; SGroupKeys key = {0}; SResSchema* pSchema = &pCol->pExpr->base.resSchema; key.pData = taosMemoryMalloc(pSchema->bytes); key.isNull = true; key.bytes = pSchema->bytes; key.type = pSchema->type; taosArrayPush(pFillInfo->next.pRowVal, &key); key.pData = taosMemoryMalloc(pSchema->bytes); taosArrayPush(pFillInfo->prev.pRowVal, &key); } } static void saveColData(SArray* rowBuf, int32_t columnIndex, const char* src, bool isNull); static void copyCurrentRowIntoBuf(SFillInfo* pFillInfo, int32_t rowIndex, SRowVal* pRowVal) { SColumnInfoData* pTsCol = taosArrayGet(pFillInfo->pSrcBlock->pDataBlock, pFillInfo->srcTsSlotId); pRowVal->key = ((int64_t*)pTsCol->pData)[rowIndex]; for (int32_t i = 0; i < pFillInfo->numOfCols; ++i) { int32_t type = pFillInfo->pFillCol[i].pExpr->pExpr->nodeType; if ( type == QUERY_NODE_COLUMN || type == QUERY_NODE_OPERATOR || type == QUERY_NODE_FUNCTION) { if (!pFillInfo->pFillCol[i].notFillCol && pFillInfo->type != TSDB_FILL_NEXT) { continue; } int32_t srcSlotId = GET_DEST_SLOT_ID(&pFillInfo->pFillCol[i]); if (srcSlotId == pFillInfo->srcTsSlotId && pFillInfo->type == TSDB_FILL_LINEAR) { continue; } SColumnInfoData* pSrcCol = taosArrayGet(pFillInfo->pSrcBlock->pDataBlock, srcSlotId); bool isNull = colDataIsNull_s(pSrcCol, rowIndex); char* p = colDataGetData(pSrcCol, rowIndex); saveColData(pRowVal->pRowVal, i, p, isNull); } else { ASSERT(0); } } } static int32_t fillResultImpl(SFillInfo* pFillInfo, SSDataBlock* pBlock, int32_t outputRows) { pFillInfo->numOfCurrent = 0; SColumnInfoData* pTsCol = taosArrayGet(pFillInfo->pSrcBlock->pDataBlock, pFillInfo->srcTsSlotId); int32_t step = GET_FORWARD_DIRECTION_FACTOR(pFillInfo->order); bool ascFill = FILL_IS_ASC_FILL(pFillInfo); #if 0 ASSERT(ascFill && (pFillInfo->currentKey >= pFillInfo->start) || (!ascFill && (pFillInfo->currentKey <= pFillInfo->start))); #endif while (pFillInfo->numOfCurrent < outputRows) { int64_t ts = ((int64_t*)pTsCol->pData)[pFillInfo->index]; // set the next value for interpolation if (pFillInfo->currentKey < ts && ascFill) { SRowVal* pRVal = pFillInfo->type == TSDB_FILL_NEXT ? &pFillInfo->next : &pFillInfo->prev; copyCurrentRowIntoBuf(pFillInfo, pFillInfo->index, pRVal); } else if (pFillInfo->currentKey > ts && !ascFill) { SRowVal* pRVal = pFillInfo->type == TSDB_FILL_NEXT ? &pFillInfo->prev : &pFillInfo->next; copyCurrentRowIntoBuf(pFillInfo, pFillInfo->index, pRVal); } if (((pFillInfo->currentKey < ts && ascFill) || (pFillInfo->currentKey > ts && !ascFill)) && pFillInfo->numOfCurrent < outputRows) { // fill the gap between two input rows while (((pFillInfo->currentKey < ts && ascFill) || (pFillInfo->currentKey > ts && !ascFill)) && pFillInfo->numOfCurrent < outputRows) { doFillOneRow(pFillInfo, pBlock, pFillInfo->pSrcBlock, ts, false); } // output buffer is full, abort if (pFillInfo->numOfCurrent == outputRows) { pFillInfo->numOfTotal += pFillInfo->numOfCurrent; return outputRows; } } else { ASSERT(pFillInfo->currentKey == ts); int32_t index = pBlock->info.rows; if (pFillInfo->type == TSDB_FILL_NEXT && (pFillInfo->index + 1) < pFillInfo->numOfRows) { int32_t nextRowIndex = pFillInfo->index + 1; copyCurrentRowIntoBuf(pFillInfo, nextRowIndex, &pFillInfo->next); } // copy rows to dst buffer for (int32_t i = 0; i < pFillInfo->numOfCols; ++i) { SFillColInfo* pCol = &pFillInfo->pFillCol[i]; int32_t dstSlotId = GET_DEST_SLOT_ID(pCol); SColumnInfoData* pDst = taosArrayGet(pBlock->pDataBlock, dstSlotId); SColumnInfoData* pSrc = taosArrayGet(pFillInfo->pSrcBlock->pDataBlock, dstSlotId); char* src = colDataGetData(pSrc, pFillInfo->index); if (!colDataIsNull_s(pSrc, pFillInfo->index)) { colDataSetVal(pDst, index, src, false); saveColData(pFillInfo->prev.pRowVal, i, src, false); if (pFillInfo->srcTsSlotId == dstSlotId) { pFillInfo->prev.key = *(int64_t*)src; } } else { // the value is null if (pDst->info.type == TSDB_DATA_TYPE_TIMESTAMP) { colDataSetVal(pDst, index, (const char*)&pFillInfo->currentKey, false); } else { // i > 0 and data is null , do interpolation if (pFillInfo->type == TSDB_FILL_PREV) { SArray* p = FILL_IS_ASC_FILL(pFillInfo) ? pFillInfo->prev.pRowVal : pFillInfo->next.pRowVal; SGroupKeys* pKey = taosArrayGet(p, i); doSetVal(pDst, index, pKey); } else if (pFillInfo->type == TSDB_FILL_LINEAR) { bool isNull = colDataIsNull_s(pSrc, pFillInfo->index); colDataSetVal(pDst, index, src, isNull); saveColData(pFillInfo->prev.pRowVal, i, src, isNull); // todo: } else if (pFillInfo->type == TSDB_FILL_NULL || pFillInfo->type == TSDB_FILL_NULL_F) { colDataSetNULL(pDst, index); } else if (pFillInfo->type == TSDB_FILL_NEXT) { SArray* p = FILL_IS_ASC_FILL(pFillInfo) ? pFillInfo->next.pRowVal : pFillInfo->prev.pRowVal; SGroupKeys* pKey = taosArrayGet(p, i); doSetVal(pDst, index, pKey); } else { SVariant* pVar = &pFillInfo->pFillCol[i].fillVal; doSetUserSpecifiedValue(pDst, pVar, index, pFillInfo->currentKey); } } } } // set the tag value for final result SInterval* pInterval = &pFillInfo->interval; pFillInfo->currentKey = taosTimeAdd(pFillInfo->currentKey, pInterval->sliding * step, pInterval->slidingUnit, pInterval->precision); pBlock->info.rows += 1; pFillInfo->index += 1; pFillInfo->numOfCurrent += 1; } if (pFillInfo->index >= pFillInfo->numOfRows || pFillInfo->numOfCurrent >= outputRows) { pFillInfo->numOfTotal += pFillInfo->numOfCurrent; return pFillInfo->numOfCurrent; } } return pFillInfo->numOfCurrent; } static void saveColData(SArray* rowBuf, int32_t columnIndex, const char* src, bool isNull) { SGroupKeys* pKey = taosArrayGet(rowBuf, columnIndex); if (isNull) { pKey->isNull = true; } else { if (IS_VAR_DATA_TYPE(pKey->type)) { memcpy(pKey->pData, src, varDataTLen(src)); } else { memcpy(pKey->pData, src, pKey->bytes); } pKey->isNull = false; } } static int64_t appendFilledResult(SFillInfo* pFillInfo, SSDataBlock* pBlock, int64_t resultCapacity) { /* * These data are generated according to fill strategy, since the current timestamp is out of the time window of * real result set. Note that we need to keep the direct previous result rows, to generated the filled data. */ pFillInfo->numOfCurrent = 0; while (pFillInfo->numOfCurrent < resultCapacity) { doFillOneRow(pFillInfo, pBlock, pFillInfo->pSrcBlock, pFillInfo->start, true); } pFillInfo->numOfTotal += pFillInfo->numOfCurrent; assert(pFillInfo->numOfCurrent == resultCapacity); return resultCapacity; } static int32_t taosNumOfRemainRows(SFillInfo* pFillInfo) { if (pFillInfo->numOfRows == 0 || (pFillInfo->numOfRows > 0 && pFillInfo->index >= pFillInfo->numOfRows)) { return 0; } return pFillInfo->numOfRows - pFillInfo->index; } struct SFillInfo* taosCreateFillInfo(TSKEY skey, int32_t numOfFillCols, int32_t numOfNotFillCols, int32_t capacity, SInterval* pInterval, int32_t fillType, struct SFillColInfo* pCol, int32_t primaryTsSlotId, int32_t order, const char* id) { if (fillType == TSDB_FILL_NONE) { return NULL; } SFillInfo* pFillInfo = taosMemoryCalloc(1, sizeof(SFillInfo)); if (pFillInfo == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } pFillInfo->order = order; pFillInfo->srcTsSlotId = primaryTsSlotId; for (int32_t i = 0; i < numOfNotFillCols; ++i) { SFillColInfo* p = &pCol[i + numOfFillCols]; int32_t srcSlotId = GET_DEST_SLOT_ID(p); if (srcSlotId == primaryTsSlotId) { pFillInfo->tsSlotId = i + numOfFillCols; break; } } taosResetFillInfo(pFillInfo, skey); pFillInfo->type = fillType; pFillInfo->pFillCol = pCol; pFillInfo->numOfCols = numOfFillCols + numOfNotFillCols; pFillInfo->alloc = capacity; pFillInfo->id = id; pFillInfo->interval = *pInterval; pFillInfo->next.pRowVal = taosArrayInit(pFillInfo->numOfCols, sizeof(SGroupKeys)); pFillInfo->prev.pRowVal = taosArrayInit(pFillInfo->numOfCols, sizeof(SGroupKeys)); initBeforeAfterDataBuf(pFillInfo); return pFillInfo; } void taosResetFillInfo(SFillInfo* pFillInfo, TSKEY startTimestamp) { pFillInfo->start = startTimestamp; pFillInfo->currentKey = startTimestamp; pFillInfo->end = startTimestamp; pFillInfo->index = -1; pFillInfo->numOfRows = 0; pFillInfo->numOfCurrent = 0; pFillInfo->numOfTotal = 0; } void* taosDestroyFillInfo(SFillInfo* pFillInfo) { if (pFillInfo == NULL) { return NULL; } for (int32_t i = 0; i < taosArrayGetSize(pFillInfo->prev.pRowVal); ++i) { SGroupKeys* pKey = taosArrayGet(pFillInfo->prev.pRowVal, i); taosMemoryFree(pKey->pData); } taosArrayDestroy(pFillInfo->prev.pRowVal); for (int32_t i = 0; i < taosArrayGetSize(pFillInfo->next.pRowVal); ++i) { SGroupKeys* pKey = taosArrayGet(pFillInfo->next.pRowVal, i); taosMemoryFree(pKey->pData); } taosArrayDestroy(pFillInfo->next.pRowVal); // for (int32_t i = 0; i < pFillInfo->numOfTags; ++i) { // taosMemoryFreeClear(pFillInfo->pTags[i].tagVal); // } // free pFillCol if (pFillInfo->pFillCol) { for (int32_t i = 0; i < pFillInfo->numOfCols; i++) { SFillColInfo* pCol = &pFillInfo->pFillCol[i]; if (!pCol->notFillCol) { if (pCol->fillVal.nType == TSDB_DATA_TYPE_VARBINARY || pCol->fillVal.nType == TSDB_DATA_TYPE_VARCHAR || pCol->fillVal.nType == TSDB_DATA_TYPE_NCHAR || pCol->fillVal.nType == TSDB_DATA_TYPE_JSON) { if (pCol->fillVal.pz) { taosMemoryFree(pCol->fillVal.pz); pCol->fillVal.pz = NULL; } } } } } taosMemoryFreeClear(pFillInfo->pTags); taosMemoryFreeClear(pFillInfo->pFillCol); taosMemoryFreeClear(pFillInfo); return NULL; } void taosFillSetStartInfo(SFillInfo* pFillInfo, int32_t numOfRows, TSKEY endKey) { if (pFillInfo->type == TSDB_FILL_NONE) { return; } pFillInfo->end = endKey; if (!FILL_IS_ASC_FILL(pFillInfo)) { pFillInfo->end = taosTimeTruncate(endKey, &pFillInfo->interval, pFillInfo->interval.precision); } pFillInfo->index = 0; pFillInfo->numOfRows = numOfRows; } void taosFillSetInputDataBlock(SFillInfo* pFillInfo, const SSDataBlock* pInput) { pFillInfo->pSrcBlock = (SSDataBlock*)pInput; } bool taosFillHasMoreResults(SFillInfo* pFillInfo) { int32_t remain = taosNumOfRemainRows(pFillInfo); if (remain > 0) { return true; } bool ascFill = FILL_IS_ASC_FILL(pFillInfo); if (pFillInfo->numOfTotal > 0 && (((pFillInfo->end > pFillInfo->start) && ascFill) || (pFillInfo->end < pFillInfo->start && !ascFill))) { return getNumOfResultsAfterFillGap(pFillInfo, pFillInfo->end, 4096) > 0; } return false; } int64_t getNumOfResultsAfterFillGap(SFillInfo* pFillInfo, TSKEY ekey, int32_t maxNumOfRows) { int32_t numOfRows = taosNumOfRemainRows(pFillInfo); TSKEY ekey1 = ekey; int64_t numOfRes = -1; if (numOfRows > 0) { // still fill gap within current data block, not generating data after the result set. SColumnInfoData* pCol = taosArrayGet(pFillInfo->pSrcBlock->pDataBlock, pFillInfo->srcTsSlotId); int64_t* tsList = (int64_t*)pCol->pData; TSKEY lastKey = tsList[pFillInfo->numOfRows - 1]; numOfRes = taosTimeCountInterval(lastKey, pFillInfo->currentKey, pFillInfo->interval.sliding, pFillInfo->interval.slidingUnit, pFillInfo->interval.precision); numOfRes += 1; assert(numOfRes >= numOfRows); } else { // reach the end of data if ((ekey1 < pFillInfo->currentKey && FILL_IS_ASC_FILL(pFillInfo)) || (ekey1 >= pFillInfo->currentKey && !FILL_IS_ASC_FILL(pFillInfo))) { return 0; } numOfRes = taosTimeCountInterval(ekey1, pFillInfo->currentKey, pFillInfo->interval.sliding, pFillInfo->interval.slidingUnit, pFillInfo->interval.precision); numOfRes += 1; } return (numOfRes > maxNumOfRows) ? maxNumOfRows : numOfRes; } int32_t taosGetLinearInterpolationVal(SPoint* point, int32_t outputType, SPoint* point1, SPoint* point2, int32_t inputType) { double v1 = -1, v2 = -1; GET_TYPED_DATA(v1, double, inputType, point1->val); GET_TYPED_DATA(v2, double, inputType, point2->val); double r = 0; if (!IS_BOOLEAN_TYPE(inputType)) { r = DO_INTERPOLATION(v1, v2, point1->key, point2->key, point->key); } else { r = (v1 < 1 || v2 < 1) ? 0 : 1; } SET_TYPED_DATA(point->val, outputType, r); return TSDB_CODE_SUCCESS; } int64_t taosFillResultDataBlock(SFillInfo* pFillInfo, SSDataBlock* p, int32_t capacity) { int32_t remain = taosNumOfRemainRows(pFillInfo); int64_t numOfRes = getNumOfResultsAfterFillGap(pFillInfo, pFillInfo->end, capacity); assert(numOfRes <= capacity); // no data existed for fill operation now, append result according to the fill strategy if (remain == 0) { appendFilledResult(pFillInfo, p, numOfRes); } else { fillResultImpl(pFillInfo, p, (int32_t)numOfRes); assert(numOfRes == pFillInfo->numOfCurrent); } qDebug("fill:%p, generated fill result, src block:%d, index:%d, brange:%" PRId64 "-%" PRId64 ", currentKey:%" PRId64 ", current : % d, total : % d, %s", pFillInfo, pFillInfo->numOfRows, pFillInfo->index, pFillInfo->start, pFillInfo->end, pFillInfo->currentKey, pFillInfo->numOfCurrent, pFillInfo->numOfTotal, pFillInfo->id); return numOfRes; } int64_t getFillInfoStart(struct SFillInfo* pFillInfo) { return pFillInfo->start; } SFillColInfo* createFillColInfo(SExprInfo* pExpr, int32_t numOfFillExpr, SExprInfo* pNotFillExpr, int32_t numOfNoFillExpr, const struct SNodeListNode* pValNode) { SFillColInfo* pFillCol = taosMemoryCalloc(numOfFillExpr + numOfNoFillExpr, sizeof(SFillColInfo)); if (pFillCol == NULL) { return NULL; } size_t len = (pValNode != NULL) ? LIST_LENGTH(pValNode->pNodeList) : 0; for (int32_t i = 0; i < numOfFillExpr; ++i) { SExprInfo* pExprInfo = &pExpr[i]; pFillCol[i].pExpr = pExprInfo; pFillCol[i].notFillCol = false; // todo refactor if (len > 0) { // if the user specified value is less than the column, alway use the last one as the fill value int32_t index = (i >= len) ? (len - 1) : i; SValueNode* pv = (SValueNode*)nodesListGetNode(pValNode->pNodeList, index); nodesValueNodeToVariant(pv, &pFillCol[i].fillVal); } } pFillCol->numOfFillExpr = numOfFillExpr; for (int32_t i = 0; i < numOfNoFillExpr; ++i) { SExprInfo* pExprInfo = &pNotFillExpr[i]; pFillCol[i + numOfFillExpr].pExpr = pExprInfo; pFillCol[i + numOfFillExpr].notFillCol = true; } return pFillCol; }