/* * 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 "function.h" #include "functionMgt.h" #include "index.h" #include "os.h" #include "tdatablock.h" #include "thash.h" #include "tmsg.h" #include "ttime.h" #include "executil.h" #include "executorimpl.h" #include "tcompression.h" void initResultRowInfo(SResultRowInfo* pResultRowInfo) { pResultRowInfo->size = 0; pResultRowInfo->cur.pageId = -1; } void closeResultRow(SResultRow* pResultRow) { pResultRow->closed = true; } // TODO refactor: use macro SResultRowEntryInfo* getResultEntryInfo(const SResultRow* pRow, int32_t index, const int32_t* offset) { assert(index >= 0 && offset != NULL); return (SResultRowEntryInfo*)((char*)pRow->pEntryInfo + offset[index]); } size_t getResultRowSize(SqlFunctionCtx* pCtx, int32_t numOfOutput) { int32_t rowSize = (numOfOutput * sizeof(SResultRowEntryInfo)) + sizeof(SResultRow); for (int32_t i = 0; i < numOfOutput; ++i) { rowSize += pCtx[i].resDataInfo.interBufSize; } rowSize += (numOfOutput * sizeof(bool)); // expand rowSize to mark if col is null for top/bottom result(doSaveTupleData) return rowSize; } void cleanupGroupResInfo(SGroupResInfo* pGroupResInfo) { assert(pGroupResInfo != NULL); for (int32_t i = 0; i < taosArrayGetSize(pGroupResInfo->pRows); ++i) { SResKeyPos* pRes = taosArrayGetP(pGroupResInfo->pRows, i); taosMemoryFree(pRes); } pGroupResInfo->pRows = taosArrayDestroy(pGroupResInfo->pRows); pGroupResInfo->index = 0; } int32_t resultrowComparAsc(const void* p1, const void* p2) { SResKeyPos* pp1 = *(SResKeyPos**)p1; SResKeyPos* pp2 = *(SResKeyPos**)p2; if (pp1->groupId == pp2->groupId) { int64_t pts1 = *(int64_t*)pp1->key; int64_t pts2 = *(int64_t*)pp2->key; if (pts1 == pts2) { return 0; } else { return pts1 < pts2 ? -1 : 1; } } else { return pp1->groupId < pp2->groupId ? -1 : 1; } } static int32_t resultrowComparDesc(const void* p1, const void* p2) { return resultrowComparAsc(p2, p1); } void initGroupedResultInfo(SGroupResInfo* pGroupResInfo, SHashObj* pHashmap, int32_t order) { if (pGroupResInfo->pRows != NULL) { taosArrayDestroy(pGroupResInfo->pRows); } // extract the result rows information from the hash map void* pData = NULL; pGroupResInfo->pRows = taosArrayInit(10, POINTER_BYTES); size_t keyLen = 0; while ((pData = taosHashIterate(pHashmap, pData)) != NULL) { void* key = taosHashGetKey(pData, &keyLen); SResKeyPos* p = taosMemoryMalloc(keyLen + sizeof(SResultRowPosition)); p->groupId = *(uint64_t*)key; p->pos = *(SResultRowPosition*)pData; memcpy(p->key, (char*)key + sizeof(uint64_t), keyLen - sizeof(uint64_t)); taosArrayPush(pGroupResInfo->pRows, &p); } if (order == TSDB_ORDER_ASC || order == TSDB_ORDER_DESC) { __compar_fn_t fn = (order == TSDB_ORDER_ASC) ? resultrowComparAsc : resultrowComparDesc; taosSort(pGroupResInfo->pRows->pData, taosArrayGetSize(pGroupResInfo->pRows), POINTER_BYTES, fn); } pGroupResInfo->index = 0; assert(pGroupResInfo->index <= getNumOfTotalRes(pGroupResInfo)); } void initMultiResInfoFromArrayList(SGroupResInfo* pGroupResInfo, SArray* pArrayList) { if (pGroupResInfo->pRows != NULL) { taosArrayDestroyP(pGroupResInfo->pRows, taosMemoryFree); } pGroupResInfo->pRows = pArrayList; pGroupResInfo->index = 0; ASSERT(pGroupResInfo->index <= getNumOfTotalRes(pGroupResInfo)); } bool hasRemainResults(SGroupResInfo* pGroupResInfo) { if (pGroupResInfo->pRows == NULL) { return false; } return pGroupResInfo->index < taosArrayGetSize(pGroupResInfo->pRows); } int32_t getNumOfTotalRes(SGroupResInfo* pGroupResInfo) { assert(pGroupResInfo != NULL); if (pGroupResInfo->pRows == 0) { return 0; } return (int32_t)taosArrayGetSize(pGroupResInfo->pRows); } SArray* createSortInfo(SNodeList* pNodeList) { size_t numOfCols = 0; if (pNodeList != NULL) { numOfCols = LIST_LENGTH(pNodeList); } else { numOfCols = 0; } SArray* pList = taosArrayInit(numOfCols, sizeof(SBlockOrderInfo)); if (pList == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return pList; } for (int32_t i = 0; i < numOfCols; ++i) { SOrderByExprNode* pSortKey = (SOrderByExprNode*)nodesListGetNode(pNodeList, i); SBlockOrderInfo bi = {0}; bi.order = (pSortKey->order == ORDER_ASC) ? TSDB_ORDER_ASC : TSDB_ORDER_DESC; bi.nullFirst = (pSortKey->nullOrder == NULL_ORDER_FIRST); SColumnNode* pColNode = (SColumnNode*)pSortKey->pExpr; bi.slotId = pColNode->slotId; taosArrayPush(pList, &bi); } return pList; } SSDataBlock* createResDataBlock(SDataBlockDescNode* pNode) { int32_t numOfCols = LIST_LENGTH(pNode->pSlots); SSDataBlock* pBlock = createDataBlock(); pBlock->info.blockId = pNode->dataBlockId; pBlock->info.type = STREAM_INVALID; pBlock->info.calWin = (STimeWindow){.skey = INT64_MIN, .ekey = INT64_MAX}; pBlock->info.watermark = INT64_MIN; for (int32_t i = 0; i < numOfCols; ++i) { SSlotDescNode* pDescNode = (SSlotDescNode*)nodesListGetNode(pNode->pSlots, i); SColumnInfoData idata = createColumnInfoData(pDescNode->dataType.type, pDescNode->dataType.bytes, pDescNode->slotId); idata.info.scale = pDescNode->dataType.scale; idata.info.precision = pDescNode->dataType.precision; blockDataAppendColInfo(pBlock, &idata); } return pBlock; } EDealRes doTranslateTagExpr(SNode** pNode, void* pContext) { SMetaReader* mr = (SMetaReader*)pContext; if (nodeType(*pNode) == QUERY_NODE_COLUMN) { SColumnNode* pSColumnNode = *(SColumnNode**)pNode; SValueNode* res = (SValueNode*)nodesMakeNode(QUERY_NODE_VALUE); if (NULL == res) { return DEAL_RES_ERROR; } res->translate = true; res->node.resType = pSColumnNode->node.resType; STagVal tagVal = {0}; tagVal.cid = pSColumnNode->colId; const char* p = metaGetTableTagVal(mr->me.ctbEntry.pTags, pSColumnNode->node.resType.type, &tagVal); if (p == NULL) { res->node.resType.type = TSDB_DATA_TYPE_NULL; } else if (pSColumnNode->node.resType.type == TSDB_DATA_TYPE_JSON) { int32_t len = ((const STag*)p)->len; res->datum.p = taosMemoryCalloc(len + 1, 1); memcpy(res->datum.p, p, len); } else if (IS_VAR_DATA_TYPE(pSColumnNode->node.resType.type)) { res->datum.p = taosMemoryCalloc(tagVal.nData + VARSTR_HEADER_SIZE + 1, 1); memcpy(varDataVal(res->datum.p), tagVal.pData, tagVal.nData); varDataSetLen(res->datum.p, tagVal.nData); } else { nodesSetValueNodeValue(res, &(tagVal.i64)); } nodesDestroyNode(*pNode); *pNode = (SNode*)res; } else if (nodeType(*pNode) == QUERY_NODE_FUNCTION) { SFunctionNode* pFuncNode = *(SFunctionNode**)pNode; if (pFuncNode->funcType == FUNCTION_TYPE_TBNAME) { SValueNode* res = (SValueNode*)nodesMakeNode(QUERY_NODE_VALUE); if (NULL == res) { return DEAL_RES_ERROR; } res->translate = true; res->node.resType = pFuncNode->node.resType; int32_t len = strlen(mr->me.name); res->datum.p = taosMemoryCalloc(len + VARSTR_HEADER_SIZE + 1, 1); memcpy(varDataVal(res->datum.p), mr->me.name, len); varDataSetLen(res->datum.p, len); nodesDestroyNode(*pNode); *pNode = (SNode*)res; } } return DEAL_RES_CONTINUE; } int32_t isQualifiedTable(STableKeyInfo* info, SNode* pTagCond, void* metaHandle, bool* pQualified) { int32_t code = TSDB_CODE_SUCCESS; SMetaReader mr = {0}; metaReaderInit(&mr, metaHandle, 0); code = metaGetTableEntryByUid(&mr, info->uid); if (TSDB_CODE_SUCCESS != code) { metaReaderClear(&mr); *pQualified = false; return TSDB_CODE_SUCCESS; } SNode* pTagCondTmp = nodesCloneNode(pTagCond); nodesRewriteExprPostOrder(&pTagCondTmp, doTranslateTagExpr, &mr); metaReaderClear(&mr); SNode* pNew = NULL; code = scalarCalculateConstants(pTagCondTmp, &pNew); if (TSDB_CODE_SUCCESS != code) { terrno = code; nodesDestroyNode(pTagCondTmp); *pQualified = false; return code; } ASSERT(nodeType(pNew) == QUERY_NODE_VALUE); SValueNode* pValue = (SValueNode*)pNew; ASSERT(pValue->node.resType.type == TSDB_DATA_TYPE_BOOL); *pQualified = pValue->datum.b; nodesDestroyNode(pNew); return TSDB_CODE_SUCCESS; } typedef struct tagFilterAssist{ SHashObj *colHash; int32_t index; SArray *cInfoList; }tagFilterAssist; static EDealRes getColumn(SNode** pNode, void* pContext) { SColumnNode* pSColumnNode = NULL; if (QUERY_NODE_COLUMN == nodeType((*pNode))) { pSColumnNode = *(SColumnNode**)pNode; }else if(QUERY_NODE_FUNCTION == nodeType((*pNode))){ SFunctionNode* pFuncNode = *(SFunctionNode**)(pNode); if (pFuncNode->funcType == FUNCTION_TYPE_TBNAME) { pSColumnNode = (SColumnNode*)nodesMakeNode(QUERY_NODE_COLUMN); if (NULL == pSColumnNode) { return DEAL_RES_ERROR; } pSColumnNode->colId = -1; pSColumnNode->colType = COLUMN_TYPE_TBNAME; pSColumnNode->node.resType.type = TSDB_DATA_TYPE_VARCHAR; pSColumnNode->node.resType.bytes = TSDB_TABLE_FNAME_LEN - 1 + VARSTR_HEADER_SIZE; nodesDestroyNode(*pNode); *pNode = (SNode*)pSColumnNode; }else{ return DEAL_RES_CONTINUE; } }else{ return DEAL_RES_CONTINUE; } tagFilterAssist *pData = (tagFilterAssist *)pContext; void *data = taosHashGet(pData->colHash, &pSColumnNode->colId, sizeof(pSColumnNode->colId)); if(!data){ taosHashPut(pData->colHash, &pSColumnNode->colId, sizeof(pSColumnNode->colId), pNode, sizeof((*pNode))); pSColumnNode->slotId = pData->index++; SColumnInfo cInfo = {.colId = pSColumnNode->colId, .type = pSColumnNode->node.resType.type, .bytes = pSColumnNode->node.resType.bytes}; #if TAG_FILTER_DEBUG qDebug("tagfilter build column info, slotId:%d, colId:%d, type:%d", pSColumnNode->slotId, cInfo.colId, cInfo.type); #endif taosArrayPush(pData->cInfoList, &cInfo); }else{ SColumnNode* col = *(SColumnNode**)data; pSColumnNode->slotId = col->slotId; } return DEAL_RES_CONTINUE; } static int32_t createResultData(SDataType* pType, int32_t numOfRows, SScalarParam* pParam) { SColumnInfoData* pColumnData = taosMemoryCalloc(1, sizeof(SColumnInfoData)); if (pColumnData == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return terrno; } pColumnData->info.type = pType->type; pColumnData->info.bytes = pType->bytes; pColumnData->info.scale = pType->scale; pColumnData->info.precision = pType->precision; int32_t code = colInfoDataEnsureCapacity(pColumnData, numOfRows); if (code != TSDB_CODE_SUCCESS) { terrno = TSDB_CODE_OUT_OF_MEMORY; taosMemoryFree(pColumnData); return terrno; } pParam->columnData = pColumnData; pParam->colAlloced = true; return TSDB_CODE_SUCCESS; } static SColumnInfoData* getColInfoResult(void* metaHandle, uint64_t suid, SArray* uidList, SNode* pTagCond){ int32_t code = TSDB_CODE_SUCCESS; SArray* pBlockList = NULL; SSDataBlock* pResBlock = NULL; SHashObj * tags = NULL; SScalarParam output = {0}; tagFilterAssist ctx = {0}; ctx.colHash = taosHashInit(4, taosGetDefaultHashFunction(TSDB_DATA_TYPE_SMALLINT), false, HASH_NO_LOCK); if(ctx.colHash == NULL){ terrno = TSDB_CODE_OUT_OF_MEMORY; goto end; } ctx.index = 0; ctx.cInfoList = taosArrayInit(4, sizeof(SColumnInfo)); if(ctx.cInfoList == NULL){ terrno = TSDB_CODE_OUT_OF_MEMORY; goto end; } nodesRewriteExprPostOrder(&pTagCond, getColumn, (void *)&ctx); pResBlock = createDataBlock(); if (pResBlock == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; goto end; } for (int32_t i = 0; i < taosArrayGetSize(ctx.cInfoList); ++i) { SColumnInfoData colInfo = {{0}, 0}; colInfo.info = *(SColumnInfo*)taosArrayGet(ctx.cInfoList, i); blockDataAppendColInfo(pResBlock, &colInfo); } // int64_t stt = taosGetTimestampUs(); tags = taosHashInit(32, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT), false, HASH_NO_LOCK); code = metaGetTableTags(metaHandle, suid, uidList, tags); if (code != TSDB_CODE_SUCCESS) { qError("failed to get table tags from meta, reason:%s, suid:%" PRIu64, tstrerror(code), suid); terrno = code; goto end; } int32_t rows = taosArrayGetSize(uidList); if(rows == 0){ goto end; } // int64_t stt1 = taosGetTimestampUs(); // qDebug("generate tag meta rows:%d, cost:%ld us", rows, stt1-stt); code = blockDataEnsureCapacity(pResBlock, rows); if (code != TSDB_CODE_SUCCESS) { terrno = code; goto end; } // int64_t st = taosGetTimestampUs(); for (int32_t i = 0; i < rows; i++) { int64_t* uid = taosArrayGet(uidList, i); for(int32_t j = 0; j < taosArrayGetSize(pResBlock->pDataBlock); j++){ SColumnInfoData* pColInfo = (SColumnInfoData*)taosArrayGet(pResBlock->pDataBlock, j); if(pColInfo->info.colId == -1){ // tbname char str[TSDB_TABLE_FNAME_LEN + VARSTR_HEADER_SIZE] = {0}; metaGetTableNameByUid(metaHandle, *uid, str); colDataAppend(pColInfo, i, str, false); #if TAG_FILTER_DEBUG qDebug("tagfilter uid:%ld, tbname:%s", *uid, str+2); #endif }else{ void* tag = taosHashGet(tags, uid, sizeof(int64_t)); ASSERT(tag); STagVal tagVal = {0}; tagVal.cid = pColInfo->info.colId; const char* p = metaGetTableTagVal(tag, pColInfo->info.type, &tagVal); if (p == NULL || (pColInfo->info.type == TSDB_DATA_TYPE_JSON && ((STag*)p)->nTag == 0)){ colDataAppend(pColInfo, i, p, true); } else if (pColInfo->info.type == TSDB_DATA_TYPE_JSON) { colDataAppend(pColInfo, i, p, false); } else if (IS_VAR_DATA_TYPE(pColInfo->info.type)) { char *tmp = taosMemoryCalloc(tagVal.nData + VARSTR_HEADER_SIZE + 1, 1); varDataSetLen(tmp, tagVal.nData); memcpy(tmp + VARSTR_HEADER_SIZE, tagVal.pData, tagVal.nData); colDataAppend(pColInfo, i, tmp, false); #if TAG_FILTER_DEBUG qDebug("tagfilter varch:%s", tmp+2); #endif taosMemoryFree(tmp); } else { colDataAppend(pColInfo, i, (const char*)&tagVal.i64, false); #if TAG_FILTER_DEBUG if(pColInfo->info.type == TSDB_DATA_TYPE_INT){ qDebug("tagfilter int:%d", *(int*)(&tagVal.i64)); }else if(pColInfo->info.type == TSDB_DATA_TYPE_DOUBLE){ qDebug("tagfilter double:%f", *(double *)(&tagVal.i64)); } #endif } } } } pResBlock->info.rows = rows; // int64_t st1 = taosGetTimestampUs(); // qDebug("generate tag block rows:%d, cost:%ld us", rows, st1-st); pBlockList = taosArrayInit(2, POINTER_BYTES); taosArrayPush(pBlockList, &pResBlock); SDataType type = {.type = TSDB_DATA_TYPE_BOOL, .bytes = sizeof(bool)}; code = createResultData(&type, rows, &output); if (code != TSDB_CODE_SUCCESS) { terrno = code; qError("failed to create result, reason:%s", tstrerror(code)); goto end; } code = scalarCalculate(pTagCond, pBlockList, &output); if(code != TSDB_CODE_SUCCESS){ qError("failed to calculate scalar, reason:%s", tstrerror(code)); terrno = code; goto end; } // int64_t st2 = taosGetTimestampUs(); // qDebug("calculate tag block rows:%d, cost:%ld us", rows, st2-st1); end: taosHashCleanup(tags); taosHashCleanup(ctx.colHash); taosArrayDestroy(ctx.cInfoList); blockDataDestroy(pResBlock); taosArrayDestroy(pBlockList); return output.columnData; } static void releaseColInfoData(void* pCol) { if(pCol){ SColumnInfoData* col = (SColumnInfoData*) pCol; colDataDestroy(col); taosMemoryFree(col); } } int32_t getColInfoResultForGroupby(void* metaHandle, SNodeList* group, STableListInfo* pTableListInfo){ int32_t code = TSDB_CODE_SUCCESS; SArray *pBlockList = NULL; SSDataBlock *pResBlock = NULL; SHashObj *tags = NULL; SArray *uidList = NULL; void *keyBuf = NULL; SArray *groupData = NULL; int32_t rows = taosArrayGetSize(pTableListInfo->pTableList); if(rows == 0){ return TDB_CODE_SUCCESS; } tagFilterAssist ctx = {0}; ctx.colHash = taosHashInit(4, taosGetDefaultHashFunction(TSDB_DATA_TYPE_SMALLINT), false, HASH_NO_LOCK); if(ctx.colHash == NULL){ code = TSDB_CODE_OUT_OF_MEMORY; goto end; } ctx.index = 0; ctx.cInfoList = taosArrayInit(4, sizeof(SColumnInfo)); if(ctx.cInfoList == NULL){ code = TSDB_CODE_OUT_OF_MEMORY; goto end; } SNode* pNode = NULL; FOREACH(pNode, group) { nodesRewriteExprPostOrder(&pNode, getColumn, (void *)&ctx); REPLACE_NODE(pNode); } pResBlock = createDataBlock(); if (pResBlock == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; goto end; } for (int32_t i = 0; i < taosArrayGetSize(ctx.cInfoList); ++i) { SColumnInfoData colInfo = {{0}, 0}; colInfo.info = *(SColumnInfo*)taosArrayGet(ctx.cInfoList, i); blockDataAppendColInfo(pResBlock, &colInfo); } uidList = taosArrayInit(rows, sizeof(uint64_t)); for (int32_t i = 0; i < rows; ++i) { STableKeyInfo* pkeyInfo = taosArrayGet(pTableListInfo->pTableList, i); taosArrayPush(uidList, &pkeyInfo->uid); } // int64_t stt = taosGetTimestampUs(); tags = taosHashInit(32, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT), false, HASH_NO_LOCK); code = metaGetTableTags(metaHandle, pTableListInfo->suid, uidList, tags); if (code != TSDB_CODE_SUCCESS) { goto end; } // int64_t stt1 = taosGetTimestampUs(); // qDebug("generate tag meta rows:%d, cost:%ld us", rows, stt1-stt); code = blockDataEnsureCapacity(pResBlock, rows); if (code != TSDB_CODE_SUCCESS) { goto end; } // int64_t st = taosGetTimestampUs(); for (int32_t i = 0; i < rows; i++) { int64_t* uid = taosArrayGet(uidList, i); for(int32_t j = 0; j < taosArrayGetSize(pResBlock->pDataBlock); j++){ SColumnInfoData* pColInfo = (SColumnInfoData*)taosArrayGet(pResBlock->pDataBlock, j); if(pColInfo->info.colId == -1){ // tbname char str[TSDB_TABLE_FNAME_LEN + VARSTR_HEADER_SIZE] = {0}; metaGetTableNameByUid(metaHandle, *uid, str); colDataAppend(pColInfo, i, str, false); #if TAG_FILTER_DEBUG qDebug("tagfilter uid:%ld, tbname:%s", *uid, str+2); #endif }else{ void* tag = taosHashGet(tags, uid, sizeof(int64_t)); ASSERT(tag); STagVal tagVal = {0}; tagVal.cid = pColInfo->info.colId; const char* p = metaGetTableTagVal(tag, pColInfo->info.type, &tagVal); if (p == NULL || (pColInfo->info.type == TSDB_DATA_TYPE_JSON && ((STag*)p)->nTag == 0)){ colDataAppend(pColInfo, i, p, true); } else if (pColInfo->info.type == TSDB_DATA_TYPE_JSON) { colDataAppend(pColInfo, i, p, false); } else if (IS_VAR_DATA_TYPE(pColInfo->info.type)) { char *tmp = taosMemoryCalloc(tagVal.nData + VARSTR_HEADER_SIZE + 1, 1); varDataSetLen(tmp, tagVal.nData); memcpy(tmp + VARSTR_HEADER_SIZE, tagVal.pData, tagVal.nData); colDataAppend(pColInfo, i, tmp, false); #if TAG_FILTER_DEBUG qDebug("tagfilter varch:%s", tmp+2); #endif taosMemoryFree(tmp); } else { colDataAppend(pColInfo, i, (const char*)&tagVal.i64, false); #if TAG_FILTER_DEBUG if(pColInfo->info.type == TSDB_DATA_TYPE_INT){ qDebug("tagfilter int:%d", *(int*)(&tagVal.i64)); }else if(pColInfo->info.type == TSDB_DATA_TYPE_DOUBLE){ qDebug("tagfilter double:%f", *(double *)(&tagVal.i64)); } #endif } } } } pResBlock->info.rows = rows; // int64_t st1 = taosGetTimestampUs(); // qDebug("generate tag block rows:%d, cost:%ld us", rows, st1-st); pBlockList = taosArrayInit(2, POINTER_BYTES); taosArrayPush(pBlockList, &pResBlock); groupData = taosArrayInit(2, POINTER_BYTES); FOREACH(pNode, group) { SScalarParam output = {0}; switch (nodeType(pNode)) { case QUERY_NODE_VALUE: break; case QUERY_NODE_COLUMN: case QUERY_NODE_OPERATOR: case QUERY_NODE_FUNCTION:{ SExprNode* expNode = (SExprNode*)pNode; code = createResultData(&expNode->resType, rows, &output); if (code != TSDB_CODE_SUCCESS) { goto end; } break; } default: code = TSDB_CODE_OPS_NOT_SUPPORT; goto end; } if(nodeType(pNode) == QUERY_NODE_COLUMN){ SColumnNode* pSColumnNode = (SColumnNode*)pNode; SColumnInfoData* pColInfo = (SColumnInfoData*)taosArrayGet(pResBlock->pDataBlock, pSColumnNode->slotId); code = colDataAssign(output.columnData, pColInfo, rows, NULL); }else if(nodeType(pNode) == QUERY_NODE_VALUE){ continue; }else{ code = scalarCalculate(pNode, pBlockList, &output); } if(code != TSDB_CODE_SUCCESS){ releaseColInfoData(output.columnData); goto end; } taosArrayPush(groupData, &output.columnData); } int32_t keyLen = 0; SNode* node; FOREACH(node, group) { SExprNode* pExpr = (SExprNode*)node; keyLen += pExpr->resType.bytes; } int32_t nullFlagSize = sizeof(int8_t) * LIST_LENGTH(group); keyLen += nullFlagSize; keyBuf = taosMemoryCalloc(1, keyLen); if (keyBuf == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; goto end; } for(int i = 0; i < rows; i++){ STableKeyInfo* info = taosArrayGet(pTableListInfo->pTableList, i); char* isNull = (char*)keyBuf; char* pStart = (char*)keyBuf + sizeof(int8_t) * LIST_LENGTH(group); for(int j = 0; j < taosArrayGetSize(groupData); j++){ SColumnInfoData* pValue = (SColumnInfoData*)taosArrayGetP(groupData, j); if (colDataIsNull_s(pValue, i)) { isNull[j] = 1; } else { isNull[j] = 0; char* data = colDataGetData(pValue, i); if (pValue->info.type == TSDB_DATA_TYPE_JSON) { if (tTagIsJson(data)) { code = TSDB_CODE_QRY_JSON_IN_GROUP_ERROR; goto end; } if(tTagIsJsonNull(data)){ isNull[j] = 1; continue; } int32_t len = getJsonValueLen(data); memcpy(pStart, data, len); pStart += len; } else if (IS_VAR_DATA_TYPE(pValue->info.type)) { memcpy(pStart, data, varDataTLen(data)); pStart += varDataTLen(data); } else { memcpy(pStart, data, pValue->info.bytes); pStart += pValue->info.bytes; } } } int32_t len = (int32_t)(pStart - (char*)keyBuf); info->groupId = calcGroupId(keyBuf, len); taosHashPut(pTableListInfo->map, &(info->uid), sizeof(uint64_t), &info->groupId, sizeof(uint64_t)); } // int64_t st2 = taosGetTimestampUs(); // qDebug("calculate tag block rows:%d, cost:%ld us", rows, st2-st1); end: taosMemoryFreeClear(keyBuf); taosHashCleanup(tags); taosHashCleanup(ctx.colHash); taosArrayDestroy(ctx.cInfoList); blockDataDestroy(pResBlock); taosArrayDestroy(pBlockList); taosArrayDestroy(uidList); taosArrayDestroyP(groupData, releaseColInfoData); return code; } int32_t getTableList(void* metaHandle, void* pVnode, SScanPhysiNode* pScanNode, SNode* pTagCond, SNode* pTagIndexCond, STableListInfo* pListInfo) { int32_t code = TSDB_CODE_SUCCESS; pListInfo->pTableList = taosArrayInit(8, sizeof(STableKeyInfo)); if (pListInfo->pTableList == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } uint64_t tableUid = pScanNode->uid; pListInfo->suid = pScanNode->suid; SArray* res = taosArrayInit(8, sizeof(uint64_t)); if (pScanNode->tableType == TSDB_SUPER_TABLE) { if (pTagIndexCond) { SIndexMetaArg metaArg = { .metaEx = metaHandle, .idx = tsdbGetIdx(metaHandle), .ivtIdx = tsdbGetIvtIdx(metaHandle), .suid = tableUid}; // int64_t stt = taosGetTimestampUs(); SIdxFltStatus status = SFLT_NOT_INDEX; code = doFilterTag(pTagIndexCond, &metaArg, res, &status); if (code != 0 || status == SFLT_NOT_INDEX) { qError("failed to get tableIds from index, reason:%s, suid:%" PRIu64, tstrerror(code), tableUid); code = TDB_CODE_SUCCESS; } // int64_t stt1 = taosGetTimestampUs(); // qDebug("generate table list, cost:%ld us", stt1-stt); }else if(!pTagCond){ vnodeGetCtbIdList(pVnode, pScanNode->suid, res); } } else { // Create one table group. if(metaIsTableExist(metaHandle, tableUid)){ taosArrayPush(res, &tableUid); } } if (pTagCond) { terrno = TDB_CODE_SUCCESS; SColumnInfoData* pColInfoData = getColInfoResult(metaHandle, pListInfo->suid, res, pTagCond); if(terrno != TDB_CODE_SUCCESS){ colDataDestroy(pColInfoData); taosMemoryFreeClear(pColInfoData); taosArrayDestroy(res); qError("failed to getColInfoResult, code: %s", tstrerror(terrno)); return terrno; } int32_t i = 0; int32_t j = 0; int32_t len = taosArrayGetSize(res); while (i < taosArrayGetSize(res) && j < len && pColInfoData) { void* var = POINTER_SHIFT(pColInfoData->pData, j * pColInfoData->info.bytes); int64_t* uid = taosArrayGet(res, i); qDebug("tagfilter get uid:%ld, res:%d", *uid, *(bool*)var); if (*(bool*)var == false) { taosArrayRemove(res, i); j++; continue; } i++; j++; } colDataDestroy(pColInfoData); taosMemoryFreeClear(pColInfoData); } for (int i = 0; i < taosArrayGetSize(res); i++) { STableKeyInfo info = {.uid = *(uint64_t*)taosArrayGet(res, i), .groupId = 0}; taosArrayPush(pListInfo->pTableList, &info); qDebug("tagfilter get uid:%ld", info.uid); } taosArrayDestroy(res); pListInfo->pGroupList = taosArrayInit(4, POINTER_BYTES); if (pListInfo->pGroupList == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } // put into list as default group, remove it if grouping sorting is required later taosArrayPush(pListInfo->pGroupList, &pListInfo->pTableList); return code; } size_t getTableTagsBufLen(const SNodeList* pGroups) { size_t keyLen = 0; SNode* node; FOREACH(node, pGroups) { SExprNode* pExpr = (SExprNode*)node; keyLen += pExpr->resType.bytes; } keyLen += sizeof(int8_t) * LIST_LENGTH(pGroups); return keyLen; } int32_t getGroupIdFromTagsVal(void* pMeta, uint64_t uid, SNodeList* pGroupNode, char* keyBuf, uint64_t* pGroupId) { SMetaReader mr = {0}; metaReaderInit(&mr, pMeta, 0); if(metaGetTableEntryByUid(&mr, uid) != 0){ // table not exist metaReaderClear(&mr); return TSDB_CODE_PAR_TABLE_NOT_EXIST; } SNodeList* groupNew = nodesCloneList(pGroupNode); nodesRewriteExprsPostOrder(groupNew, doTranslateTagExpr, &mr); char* isNull = (char*)keyBuf; char* pStart = (char*)keyBuf + sizeof(int8_t) * LIST_LENGTH(pGroupNode); SNode* pNode; int32_t index = 0; FOREACH(pNode, groupNew) { SNode* pNew = NULL; int32_t code = scalarCalculateConstants(pNode, &pNew); if (TSDB_CODE_SUCCESS == code) { REPLACE_NODE(pNew); } else { taosMemoryFree(keyBuf); nodesDestroyList(groupNew); metaReaderClear(&mr); return code; } ASSERT(nodeType(pNew) == QUERY_NODE_VALUE); SValueNode* pValue = (SValueNode*)pNew; if (pValue->node.resType.type == TSDB_DATA_TYPE_NULL || pValue->isNull) { isNull[index++] = 1; continue; } else { isNull[index++] = 0; char* data = nodesGetValueFromNode(pValue); if (pValue->node.resType.type == TSDB_DATA_TYPE_JSON) { if (tTagIsJson(data)) { terrno = TSDB_CODE_QRY_JSON_IN_GROUP_ERROR; taosMemoryFree(keyBuf); nodesDestroyList(groupNew); metaReaderClear(&mr); return terrno; } int32_t len = getJsonValueLen(data); memcpy(pStart, data, len); pStart += len; } else if (IS_VAR_DATA_TYPE(pValue->node.resType.type)) { memcpy(pStart, data, varDataTLen(data)); pStart += varDataTLen(data); } else { memcpy(pStart, data, pValue->node.resType.bytes); pStart += pValue->node.resType.bytes; } } } int32_t len = (int32_t)(pStart - (char*)keyBuf); *pGroupId = calcGroupId(keyBuf, len); nodesDestroyList(groupNew); metaReaderClear(&mr); return TSDB_CODE_SUCCESS; } SArray* extractPartitionColInfo(SNodeList* pNodeList) { if (!pNodeList) { return NULL; } size_t numOfCols = LIST_LENGTH(pNodeList); SArray* pList = taosArrayInit(numOfCols, sizeof(SColumn)); if (pList == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } for (int32_t i = 0; i < numOfCols; ++i) { SColumnNode* pColNode = (SColumnNode*)nodesListGetNode(pNodeList, i); // todo extract method SColumn c = {0}; c.slotId = pColNode->slotId; c.colId = pColNode->colId; c.type = pColNode->node.resType.type; c.bytes = pColNode->node.resType.bytes; c.precision = pColNode->node.resType.precision; c.scale = pColNode->node.resType.scale; taosArrayPush(pList, &c); } return pList; } SArray* extractColMatchInfo(SNodeList* pNodeList, SDataBlockDescNode* pOutputNodeList, int32_t* numOfOutputCols, int32_t type) { size_t numOfCols = LIST_LENGTH(pNodeList); SArray* pList = taosArrayInit(numOfCols, sizeof(SColMatchInfo)); if (pList == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } for (int32_t i = 0; i < numOfCols; ++i) { STargetNode* pNode = (STargetNode*)nodesListGetNode(pNodeList, i); SColumnNode* pColNode = (SColumnNode*)pNode->pExpr; SColMatchInfo c = {0}; c.output = true; c.colId = pColNode->colId; c.srcSlotId = pColNode->slotId; c.matchType = type; c.targetSlotId = pNode->slotId; taosArrayPush(pList, &c); } *numOfOutputCols = 0; int32_t num = LIST_LENGTH(pOutputNodeList->pSlots); for (int32_t i = 0; i < num; ++i) { SSlotDescNode* pNode = (SSlotDescNode*)nodesListGetNode(pOutputNodeList->pSlots, i); // todo: add reserve flag check // it is a column reserved for the arithmetic expression calculation if (pNode->slotId >= numOfCols) { (*numOfOutputCols) += 1; continue; } SColMatchInfo* info = NULL; for (int32_t j = 0; j < taosArrayGetSize(pList); ++j) { info = taosArrayGet(pList, j); if (info->targetSlotId == pNode->slotId) { break; } } if (pNode->output) { (*numOfOutputCols) += 1; } else { info->output = false; } } return pList; } static SResSchema createResSchema(int32_t type, int32_t bytes, int32_t slotId, int32_t scale, int32_t precision, const char* name) { SResSchema s = {0}; s.scale = scale; s.type = type; s.bytes = bytes; s.slotId = slotId; s.precision = precision; strncpy(s.name, name, tListLen(s.name)); return s; } static SColumn* createColumn(int32_t blockId, int32_t slotId, int32_t colId, SDataType* pType) { SColumn* pCol = taosMemoryCalloc(1, sizeof(SColumn)); if (pCol == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } pCol->slotId = slotId; pCol->colId = colId; pCol->bytes = pType->bytes; pCol->type = pType->type; pCol->scale = pType->scale; pCol->precision = pType->precision; pCol->dataBlockId = blockId; return pCol; } SExprInfo* createExprInfo(SNodeList* pNodeList, SNodeList* pGroupKeys, int32_t* numOfExprs) { int32_t numOfFuncs = LIST_LENGTH(pNodeList); int32_t numOfGroupKeys = 0; if (pGroupKeys != NULL) { numOfGroupKeys = LIST_LENGTH(pGroupKeys); } *numOfExprs = numOfFuncs + numOfGroupKeys; if (*numOfExprs == 0) { return NULL; } SExprInfo* pExprs = taosMemoryCalloc(*numOfExprs, sizeof(SExprInfo)); for (int32_t i = 0; i < (*numOfExprs); ++i) { STargetNode* pTargetNode = NULL; if (i < numOfFuncs) { pTargetNode = (STargetNode*)nodesListGetNode(pNodeList, i); } else { pTargetNode = (STargetNode*)nodesListGetNode(pGroupKeys, i - numOfFuncs); } SExprInfo* pExp = &pExprs[i]; pExp->pExpr = taosMemoryCalloc(1, sizeof(tExprNode)); pExp->pExpr->_function.num = 1; pExp->pExpr->_function.functionId = -1; int32_t type = nodeType(pTargetNode->pExpr); // it is a project query, or group by column if (type == QUERY_NODE_COLUMN) { pExp->pExpr->nodeType = QUERY_NODE_COLUMN; SColumnNode* pColNode = (SColumnNode*)pTargetNode->pExpr; pExp->base.pParam = taosMemoryCalloc(1, sizeof(SFunctParam)); pExp->base.numOfParams = 1; SDataType* pType = &pColNode->node.resType; pExp->base.resSchema = createResSchema(pType->type, pType->bytes, pTargetNode->slotId, pType->scale, pType->precision, pColNode->colName); pExp->base.pParam[0].pCol = createColumn(pColNode->dataBlockId, pColNode->slotId, pColNode->colId, pType); pExp->base.pParam[0].type = FUNC_PARAM_TYPE_COLUMN; } else if (type == QUERY_NODE_VALUE) { pExp->pExpr->nodeType = QUERY_NODE_VALUE; SValueNode* pValNode = (SValueNode*)pTargetNode->pExpr; pExp->base.pParam = taosMemoryCalloc(1, sizeof(SFunctParam)); pExp->base.numOfParams = 1; SDataType* pType = &pValNode->node.resType; pExp->base.resSchema = createResSchema(pType->type, pType->bytes, pTargetNode->slotId, pType->scale, pType->precision, pValNode->node.aliasName); pExp->base.pParam[0].type = FUNC_PARAM_TYPE_VALUE; nodesValueNodeToVariant(pValNode, &pExp->base.pParam[0].param); } else if (type == QUERY_NODE_FUNCTION) { pExp->pExpr->nodeType = QUERY_NODE_FUNCTION; SFunctionNode* pFuncNode = (SFunctionNode*)pTargetNode->pExpr; SDataType* pType = &pFuncNode->node.resType; pExp->base.resSchema = createResSchema(pType->type, pType->bytes, pTargetNode->slotId, pType->scale, pType->precision, pFuncNode->node.aliasName); pExp->pExpr->_function.functionId = pFuncNode->funcId; pExp->pExpr->_function.pFunctNode = pFuncNode; strncpy(pExp->pExpr->_function.functionName, pFuncNode->functionName, tListLen(pExp->pExpr->_function.functionName)); #if 1 // todo refactor: add the parameter for tbname function if (!pFuncNode->pParameterList && (strcmp(pExp->pExpr->_function.functionName, "tbname") == 0)) { pFuncNode->pParameterList = nodesMakeList(); ASSERT(LIST_LENGTH(pFuncNode->pParameterList) == 0); SValueNode* res = (SValueNode*)nodesMakeNode(QUERY_NODE_VALUE); if (NULL == res) { // todo handle error } else { res->node.resType = (SDataType){.bytes = sizeof(int64_t), .type = TSDB_DATA_TYPE_BIGINT}; nodesListAppend(pFuncNode->pParameterList, (SNode*)res); } } #endif int32_t numOfParam = LIST_LENGTH(pFuncNode->pParameterList); pExp->base.pParam = taosMemoryCalloc(numOfParam, sizeof(SFunctParam)); pExp->base.numOfParams = numOfParam; for (int32_t j = 0; j < numOfParam; ++j) { SNode* p1 = nodesListGetNode(pFuncNode->pParameterList, j); if (p1->type == QUERY_NODE_COLUMN) { SColumnNode* pcn = (SColumnNode*)p1; pExp->base.pParam[j].type = FUNC_PARAM_TYPE_COLUMN; pExp->base.pParam[j].pCol = createColumn(pcn->dataBlockId, pcn->slotId, pcn->colId, &pcn->node.resType); } else if (p1->type == QUERY_NODE_VALUE) { SValueNode* pvn = (SValueNode*)p1; pExp->base.pParam[j].type = FUNC_PARAM_TYPE_VALUE; nodesValueNodeToVariant(pvn, &pExp->base.pParam[j].param); } } } else if (type == QUERY_NODE_OPERATOR) { pExp->pExpr->nodeType = QUERY_NODE_OPERATOR; SOperatorNode* pNode = (SOperatorNode*)pTargetNode->pExpr; pExp->base.pParam = taosMemoryCalloc(1, sizeof(SFunctParam)); pExp->base.numOfParams = 1; SDataType* pType = &pNode->node.resType; pExp->base.resSchema = createResSchema(pType->type, pType->bytes, pTargetNode->slotId, pType->scale, pType->precision, pNode->node.aliasName); pExp->pExpr->_optrRoot.pRootNode = pTargetNode->pExpr; } else { ASSERT(0); } } return pExprs; } // set the output buffer for the selectivity + tag query static int32_t setSelectValueColumnInfo(SqlFunctionCtx* pCtx, int32_t numOfOutput) { int32_t num = 0; SqlFunctionCtx* p = NULL; SqlFunctionCtx** pValCtx = taosMemoryCalloc(numOfOutput, POINTER_BYTES); if (pValCtx == NULL) { return TSDB_CODE_QRY_OUT_OF_MEMORY; } for (int32_t i = 0; i < numOfOutput; ++i) { const char* pName = pCtx[i].pExpr->pExpr->_function.functionName; if ((strcmp(pName, "_select_value") == 0) || (strcmp(pName, "_group_key") == 0)) { pValCtx[num++] = &pCtx[i]; } else if (fmIsSelectFunc(pCtx[i].functionId)) { p = &pCtx[i]; } } if (p != NULL) { p->subsidiaries.pCtx = pValCtx; p->subsidiaries.num = num; } else { taosMemoryFreeClear(pValCtx); } return TSDB_CODE_SUCCESS; } SqlFunctionCtx* createSqlFunctionCtx(SExprInfo* pExprInfo, int32_t numOfOutput, int32_t** rowEntryInfoOffset) { SqlFunctionCtx* pFuncCtx = (SqlFunctionCtx*)taosMemoryCalloc(numOfOutput, sizeof(SqlFunctionCtx)); if (pFuncCtx == NULL) { return NULL; } *rowEntryInfoOffset = taosMemoryCalloc(numOfOutput, sizeof(int32_t)); if (*rowEntryInfoOffset == 0) { taosMemoryFreeClear(pFuncCtx); return NULL; } for (int32_t i = 0; i < numOfOutput; ++i) { SExprInfo* pExpr = &pExprInfo[i]; SExprBasicInfo* pFunct = &pExpr->base; SqlFunctionCtx* pCtx = &pFuncCtx[i]; pCtx->functionId = -1; pCtx->curBufPage = -1; pCtx->pExpr = pExpr; if (pExpr->pExpr->nodeType == QUERY_NODE_FUNCTION) { SFuncExecEnv env = {0}; pCtx->functionId = pExpr->pExpr->_function.pFunctNode->funcId; if (fmIsAggFunc(pCtx->functionId) || fmIsIndefiniteRowsFunc(pCtx->functionId)) { bool isUdaf = fmIsUserDefinedFunc(pCtx->functionId); if (!isUdaf) { fmGetFuncExecFuncs(pCtx->functionId, &pCtx->fpSet); } else { char* udfName = pExpr->pExpr->_function.pFunctNode->functionName; strncpy(pCtx->udfName, udfName, strlen(udfName)); fmGetUdafExecFuncs(pCtx->functionId, &pCtx->fpSet); } pCtx->fpSet.getEnv(pExpr->pExpr->_function.pFunctNode, &env); } else { fmGetScalarFuncExecFuncs(pCtx->functionId, &pCtx->sfp); if (pCtx->sfp.getEnv != NULL) { pCtx->sfp.getEnv(pExpr->pExpr->_function.pFunctNode, &env); } } pCtx->resDataInfo.interBufSize = env.calcMemSize; } else if (pExpr->pExpr->nodeType == QUERY_NODE_COLUMN || pExpr->pExpr->nodeType == QUERY_NODE_OPERATOR || pExpr->pExpr->nodeType == QUERY_NODE_VALUE) { // for simple column, the result buffer needs to hold at least one element. pCtx->resDataInfo.interBufSize = pFunct->resSchema.bytes; } pCtx->input.numOfInputCols = pFunct->numOfParams; pCtx->input.pData = taosMemoryCalloc(pFunct->numOfParams, POINTER_BYTES); pCtx->input.pColumnDataAgg = taosMemoryCalloc(pFunct->numOfParams, POINTER_BYTES); pCtx->pTsOutput = NULL; pCtx->resDataInfo.bytes = pFunct->resSchema.bytes; pCtx->resDataInfo.type = pFunct->resSchema.type; pCtx->order = TSDB_ORDER_ASC; pCtx->start.key = INT64_MIN; pCtx->end.key = INT64_MIN; pCtx->numOfParams = pExpr->base.numOfParams; pCtx->increase = false; pCtx->isStream = false; pCtx->param = pFunct->pParam; } for (int32_t i = 1; i < numOfOutput; ++i) { (*rowEntryInfoOffset)[i] = (int32_t)((*rowEntryInfoOffset)[i - 1] + sizeof(SResultRowEntryInfo) + pFuncCtx[i - 1].resDataInfo.interBufSize); } setSelectValueColumnInfo(pFuncCtx, numOfOutput); return pFuncCtx; } // NOTE: sources columns are more than the destination SSDatablock columns. // doFilter in table scan needs every column even its output is false void relocateColumnData(SSDataBlock* pBlock, const SArray* pColMatchInfo, SArray* pCols, bool outputEveryColumn) { size_t numOfSrcCols = taosArrayGetSize(pCols); int32_t i = 0, j = 0; while (i < numOfSrcCols && j < taosArrayGetSize(pColMatchInfo)) { SColumnInfoData* p = taosArrayGet(pCols, i); SColMatchInfo* pmInfo = taosArrayGet(pColMatchInfo, j); if (!outputEveryColumn && pmInfo->reserved) { j++; continue; } if (p->info.colId == pmInfo->colId) { SColumnInfoData* pDst = taosArrayGet(pBlock->pDataBlock, pmInfo->targetSlotId); colDataAssign(pDst, p, pBlock->info.rows, &pBlock->info); i++; j++; } else if (p->info.colId < pmInfo->colId) { i++; } else { ASSERT(0); } } } SInterval extractIntervalInfo(const STableScanPhysiNode* pTableScanNode) { SInterval interval = { .interval = pTableScanNode->interval, .sliding = pTableScanNode->sliding, .intervalUnit = pTableScanNode->intervalUnit, .slidingUnit = pTableScanNode->slidingUnit, .offset = pTableScanNode->offset, }; return interval; } SColumn extractColumnFromColumnNode(SColumnNode* pColNode) { SColumn c = {0}; c.slotId = pColNode->slotId; c.colId = pColNode->colId; c.type = pColNode->node.resType.type; c.bytes = pColNode->node.resType.bytes; c.scale = pColNode->node.resType.scale; c.precision = pColNode->node.resType.precision; return c; } int32_t initQueryTableDataCond(SQueryTableDataCond* pCond, const STableScanPhysiNode* pTableScanNode) { pCond->order = pTableScanNode->scanSeq[0] > 0 ? TSDB_ORDER_ASC : TSDB_ORDER_DESC; pCond->numOfCols = LIST_LENGTH(pTableScanNode->scan.pScanCols); pCond->colList = taosMemoryCalloc(pCond->numOfCols, sizeof(SColumnInfo)); if (pCond->colList == NULL) { terrno = TSDB_CODE_QRY_OUT_OF_MEMORY; return terrno; } // pCond->twindow = pTableScanNode->scanRange; // TODO: get it from stable scan node pCond->twindows = pTableScanNode->scanRange; pCond->suid = pTableScanNode->scan.suid; pCond->type = TIMEWINDOW_RANGE_CONTAINED; pCond->startVersion = -1; pCond->endVersion = -1; // pCond->type = pTableScanNode->scanFlag; int32_t j = 0; for (int32_t i = 0; i < pCond->numOfCols; ++i) { STargetNode* pNode = (STargetNode*)nodesListGetNode(pTableScanNode->scan.pScanCols, i); SColumnNode* pColNode = (SColumnNode*)pNode->pExpr; if (pColNode->colType == COLUMN_TYPE_TAG) { continue; } pCond->colList[j].type = pColNode->node.resType.type; pCond->colList[j].bytes = pColNode->node.resType.bytes; pCond->colList[j].colId = pColNode->colId; j += 1; } pCond->numOfCols = j; return TSDB_CODE_SUCCESS; } void cleanupQueryTableDataCond(SQueryTableDataCond* pCond) { taosMemoryFree(pCond->colList); } int32_t convertFillType(int32_t mode) { int32_t type = TSDB_FILL_NONE; switch (mode) { case FILL_MODE_PREV: type = TSDB_FILL_PREV; break; case FILL_MODE_NONE: type = TSDB_FILL_NONE; break; case FILL_MODE_NULL: type = TSDB_FILL_NULL; break; case FILL_MODE_NEXT: type = TSDB_FILL_NEXT; break; case FILL_MODE_VALUE: type = TSDB_FILL_SET_VALUE; break; case FILL_MODE_LINEAR: type = TSDB_FILL_LINEAR; break; default: type = TSDB_FILL_NONE; } return type; } static void getInitialStartTimeWindow(SInterval* pInterval, TSKEY ts, STimeWindow* w, bool ascQuery) { if (ascQuery) { *w = getAlignQueryTimeWindow(pInterval, pInterval->precision, ts); } else { // the start position of the first time window in the endpoint that spreads beyond the queried last timestamp *w = getAlignQueryTimeWindow(pInterval, pInterval->precision, ts); int64_t key = w->skey; while (key < ts) { // moving towards end key = taosTimeAdd(key, pInterval->sliding, pInterval->slidingUnit, pInterval->precision); if (key >= ts) { break; } w->skey = key; } } } static STimeWindow doCalculateTimeWindow(int64_t ts, SInterval* pInterval) { STimeWindow w = {0}; w.skey = taosTimeTruncate(ts, pInterval, pInterval->precision); w.ekey = taosTimeAdd(w.skey, pInterval->interval, pInterval->intervalUnit, pInterval->precision) - 1; return w; } STimeWindow getFirstQualifiedTimeWindow(int64_t ts, STimeWindow* pWindow, SInterval* pInterval, int32_t order) { int32_t factor = (order == TSDB_ORDER_ASC) ? -1 : 1; STimeWindow win = *pWindow; STimeWindow save = win; while (win.skey <= ts && win.ekey >= ts) { save = win; win.skey = taosTimeAdd(win.skey, factor * pInterval->sliding, pInterval->slidingUnit, pInterval->precision); win.ekey = taosTimeAdd(win.ekey, factor * pInterval->sliding, pInterval->slidingUnit, pInterval->precision); } return save; } // get the correct time window according to the handled timestamp // todo refactor STimeWindow getActiveTimeWindow(SDiskbasedBuf* pBuf, SResultRowInfo* pResultRowInfo, int64_t ts, SInterval* pInterval, int32_t order) { STimeWindow w = {0}; if (pResultRowInfo->cur.pageId == -1) { // the first window, from the previous stored value getInitialStartTimeWindow(pInterval, ts, &w, (order == TSDB_ORDER_ASC)); w.ekey = taosTimeAdd(w.skey, pInterval->interval, pInterval->intervalUnit, pInterval->precision) - 1; return w; } w = getResultRowByPos(pBuf, &pResultRowInfo->cur, false)->win; // in case of typical time window, we can calculate time window directly. if (w.skey > ts || w.ekey < ts) { w = doCalculateTimeWindow(ts, pInterval); } if (pInterval->interval != pInterval->sliding) { // it is an sliding window query, in which sliding value is not equalled to // interval value, and we need to find the first qualified time window. w = getFirstQualifiedTimeWindow(ts, &w, pInterval, order); } return w; } bool hasLimitOffsetInfo(SLimitInfo* pLimitInfo) { return (pLimitInfo->limit.limit != -1 || pLimitInfo->limit.offset != -1 || pLimitInfo->slimit.limit != -1 || pLimitInfo->slimit.offset != -1); } static int64_t getLimit(const SNode* pLimit) { return NULL == pLimit ? -1 : ((SLimitNode*)pLimit)->limit; } static int64_t getOffset(const SNode* pLimit) { return NULL == pLimit ? -1 : ((SLimitNode*)pLimit)->offset; } void initLimitInfo(const SNode* pLimit, const SNode* pSLimit, SLimitInfo* pLimitInfo) { SLimit limit = {.limit = getLimit(pLimit), .offset = getOffset(pLimit)}; SLimit slimit = {.limit = getLimit(pSLimit), .offset = getOffset(pSLimit)}; pLimitInfo->limit = limit; pLimitInfo->slimit = slimit; pLimitInfo->remainOffset = limit.offset; pLimitInfo->remainGroupOffset = slimit.offset; }