#4986

Committed 15 Mar 2026 08:32AM UTC coverage: 37.305% (-31.3%) from 68.601%

Build # #4986

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push

travis-ci

Committed by

tomchon

Commit Message

test: keep docs and unit test

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0.0

/source/libs/executor/src/operator.c

/*
 * Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
 *
 * 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 <http://www.gnu.org/licenses/>.
 */

#include "filter.h"
#include "function.h"
#include "tname.h"

#include "tglobal.h"

#include "executorInt.h"
#include "index.h"
#include "operator.h"
#include "query.h"
#include "querytask.h"

#include "storageapi.h"
#include "tdatablock.h"

SOperatorFpSet createOperatorFpSet(__optr_open_fn_t openFn, __optr_fn_t nextFn, __optr_fn_t cleanup,
                                   __optr_close_fn_t closeFn, __optr_reqBuf_fn_t reqBufFn, __optr_explain_fn_t explain,
                                   __optr_get_ext_fn_t nextExtFn, __optr_notify_fn_t notifyFn) {
  SOperatorFpSet fpSet = {
      ._openFn = openFn,
      .getNextFn = nextFn,
      .cleanupFn = cleanup,
      .closeFn = closeFn,
      .reqBufFn = reqBufFn,
      .getExplainFn = explain,
      .getNextExtFn = nextExtFn,
      .notifyFn = notifyFn,
      .releaseStreamStateFn = NULL,
      .reloadStreamStateFn = NULL,
      .resetStateFn = NULL,
  };

  return fpSet;
}

void setOperatorStreamStateFn(SOperatorInfo* pOperator, __optr_state_fn_t relaseFn, __optr_state_fn_t reloadFn) {
  pOperator->fpSet.releaseStreamStateFn = relaseFn;
  pOperator->fpSet.reloadStreamStateFn = reloadFn;
}

void setOperatorResetStateFn(SOperatorInfo* pOperator, __optr_reset_state_fn_t resetFn) {
  pOperator->fpSet.resetStateFn = resetFn;
}

int32_t optrDummyOpenFn(SOperatorInfo* pOperator) {
  OPTR_SET_OPENED(pOperator);
  pOperator->cost.openCost = 0;
  return TSDB_CODE_SUCCESS;
}

int32_t appendDownstream(SOperatorInfo* p, SOperatorInfo** pDownstream, int32_t num) {
  p->pDownstream = taosMemoryCalloc(1, num * POINTER_BYTES);
  if (p->pDownstream == NULL) {
    return terrno;
  }

  memcpy(p->pDownstream, pDownstream, num * POINTER_BYTES);
  p->numOfDownstream = num;
  p->numOfRealDownstream = num;
  return TSDB_CODE_SUCCESS;
}

void setOperatorCompleted(SOperatorInfo* pOperator) {
  pOperator->status = OP_EXEC_DONE;
  pOperator->cost.totalCost = (taosGetTimestampUs() - pOperator->pTaskInfo->cost.start) / 1000.0;
  setTaskStatus(pOperator->pTaskInfo, TASK_COMPLETED);
}

void setOperatorInfo(SOperatorInfo* pOperator, const char* name, int32_t type, bool blocking, int32_t status,
                     void* pInfo, SExecTaskInfo* pTaskInfo) {
  pOperator->name = (char*)name;
  pOperator->operatorType = type;
  pOperator->blocking = blocking;
  pOperator->status = status;
  pOperator->info = pInfo;
  pOperator->pTaskInfo = pTaskInfo;
}

// each operator should be set their own function to return total cost buffer
int32_t optrDefaultBufFn(SOperatorInfo* pOperator) {
  if (pOperator->blocking) {
    return -1;
  } else {
    return 0;
  }
}

static int64_t getQuerySupportBufSize(size_t numOfTables) {
  size_t s1 = sizeof(STableQueryInfo);
  //  size_t s3 = sizeof(STableCheckInfo);  buffer consumption in tsdb
  return (int64_t)(s1 * 1.5 * numOfTables);
}

int32_t checkForQueryBuf(size_t numOfTables) {
  int64_t t = getQuerySupportBufSize(numOfTables);
  if (tsQueryBufferSizeBytes < 0) {
    return TSDB_CODE_SUCCESS;
  } else if (tsQueryBufferSizeBytes > 0) {
    while (1) {
      int64_t s = tsQueryBufferSizeBytes;
      int64_t remain = s - t;
      if (remain >= 0) {
        if (atomic_val_compare_exchange_64(&tsQueryBufferSizeBytes, s, remain) == s) {
          return TSDB_CODE_SUCCESS;
        }
      } else {
        return TSDB_CODE_QRY_NOT_ENOUGH_BUFFER;
      }
    }
  }

  // disable query processing if the value of tsQueryBufferSize is zero.
  return TSDB_CODE_QRY_NOT_ENOUGH_BUFFER;
}

void releaseQueryBuf(size_t numOfTables) {
  if (tsQueryBufferSizeBytes < 0) {
    return;
  }

  int64_t t = getQuerySupportBufSize(numOfTables);

  // restore value is not enough buffer available
  (void)atomic_add_fetch_64(&tsQueryBufferSizeBytes, t);
}

typedef enum {
  OPTR_FN_RET_CONTINUE = 0x1,
  OPTR_FN_RET_ABORT = 0x2,
} ERetType;

typedef struct STraverParam {
  void*   pRet;
  int32_t code;
  void*   pParam;
} STraverParam;

// iterate the operator tree helper
typedef ERetType (*optr_fn_t)(SOperatorInfo* pOperator, STraverParam* pParam, const char* pIdstr);

void traverseOperatorTree(SOperatorInfo* pOperator, optr_fn_t fn, STraverParam* pParam, const char* id) {
  if (pOperator == NULL) {
    return;
  }

  ERetType ret = fn(pOperator, pParam, id);
  if (ret == OPTR_FN_RET_ABORT || pParam->code != TSDB_CODE_SUCCESS) {
    return;
  }

  for (int32_t i = 0; i < pOperator->numOfDownstream; ++i) {
    traverseOperatorTree(pOperator->pDownstream[i], fn, pParam, id);
    if (pParam->code != 0) {
      break;
    }
  }
}

ERetType extractOperatorInfo(SOperatorInfo* pOperator, STraverParam* pParam, const char* pIdStr) {
  STraverParam* p = pParam;
  if (pOperator->operatorType == *(int32_t*)p->pParam) {
    p->pRet = pOperator;
    return OPTR_FN_RET_ABORT;
  } else {
    return OPTR_FN_RET_CONTINUE;
  }
}

// QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN
int32_t extractOperatorInTree(SOperatorInfo* pOperator, int32_t type, const char* id, SOperatorInfo** pOptrInfo) {
  QRY_PARAM_CHECK(pOptrInfo);

  if (pOperator == NULL) {
    qError("invalid operator, failed to find tableScanOperator %s", id);
    return TSDB_CODE_STREAM_INTERNAL_ERROR;
  }

  STraverParam p = {.pParam = &type, .pRet = NULL};
  traverseOperatorTree(pOperator, extractOperatorInfo, &p, id);
  if (p.code == 0) {
    *pOptrInfo = p.pRet;
  }
  return p.code;
}

typedef struct SExtScanInfo {
  int32_t order;
  int32_t scanFlag;
  int32_t inheritUsOrder;
} SExtScanInfo;

static ERetType extractScanInfo(SOperatorInfo* pOperator, STraverParam* pParam, const char* pIdStr) {
  int32_t       type = pOperator->operatorType;
  SExtScanInfo* pInfo = pParam->pParam;

  if (type == QUERY_NODE_PHYSICAL_PLAN_SYSTABLE_SCAN || type == QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN ||
      type == QUERY_NODE_PHYSICAL_PLAN_TAG_SCAN || type == QUERY_NODE_PHYSICAL_PLAN_BLOCK_DIST_SCAN ||
      type == QUERY_NODE_PHYSICAL_PLAN_LAST_ROW_SCAN || type == QUERY_NODE_PHYSICAL_PLAN_TABLE_COUNT_SCAN) {
    pInfo->order = TSDB_ORDER_ASC;
    pInfo->scanFlag = MAIN_SCAN;
    return OPTR_FN_RET_ABORT;
  } else if (type == QUERY_NODE_PHYSICAL_PLAN_EXCHANGE) {
    if (!pInfo->inheritUsOrder) {
      pInfo->order = TSDB_ORDER_ASC;
    }
    pInfo->scanFlag = MAIN_SCAN;
    return OPTR_FN_RET_ABORT;
  } else if (type == QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN) {
    STableScanInfo* pTableScanInfo = pOperator->info;
    pInfo->order = pTableScanInfo->base.cond.order;
    pInfo->scanFlag = pTableScanInfo->base.scanFlag;
    return OPTR_FN_RET_ABORT;
  } else if (type == QUERY_NODE_PHYSICAL_PLAN_TABLE_MERGE_SCAN) {
    STableMergeScanInfo* pTableScanInfo = pOperator->info;
    pInfo->order = pTableScanInfo->base.cond.order;
    pInfo->scanFlag = pTableScanInfo->base.scanFlag;
    return OPTR_FN_RET_ABORT;
  } else {
    return OPTR_FN_RET_CONTINUE;
  }
}

int32_t getTableScanInfo(SOperatorInfo* pOperator, int32_t* order, int32_t* scanFlag, bool inheritUsOrder) {
  SExtScanInfo info = {.inheritUsOrder = inheritUsOrder, .order = *order};
  STraverParam p = {.pParam = &info};

  traverseOperatorTree(pOperator, extractScanInfo, &p, NULL);
  *order = info.order;
  *scanFlag = info.scanFlag;

  if (p.code == TSDB_CODE_SUCCESS) {
    if (!(*order == TSDB_ORDER_ASC || *order == TSDB_ORDER_DESC)) {
      qError("operator failed at: %s:%d", __func__, __LINE__);
      p.code = TSDB_CODE_INVALID_PARA;
    }
  }
  return p.code;
}

static ERetType doStopDataReader(SOperatorInfo* pOperator, STraverParam* pParam, const char* pIdStr) {
  SStorageAPI* pAPI = pParam->pParam;
  if (pOperator->operatorType == QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN) {
    STableScanInfo* pInfo = pOperator->info;

    if (pInfo->base.dataReader != NULL) {
      pAPI->tsdReader.tsdReaderNotifyClosing(pInfo->base.dataReader);
    }
    return OPTR_FN_RET_ABORT;
  } else if (pOperator->operatorType == QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN) {
    STmqQueryScanInfo* pInfo = pOperator->info;

    if (pInfo->pTableScanOp != NULL) {
      STableScanInfo* pTableScanInfo = pInfo->pTableScanOp->info;
      if (pTableScanInfo != NULL && pTableScanInfo->base.dataReader != NULL) {
        pAPI->tsdReader.tsdReaderNotifyClosing(pTableScanInfo->base.dataReader);
      }
    }

    return OPTR_FN_RET_ABORT;
  }

  return OPTR_FN_RET_CONTINUE;
}

int32_t stopTableScanOperator(SOperatorInfo* pOperator, const char* pIdStr, SStorageAPI* pAPI) {
  STraverParam p = {.pParam = pAPI};
  traverseOperatorTree(pOperator, doStopDataReader, &p, pIdStr);
  return p.code;
}

int32_t createOperator(SPhysiNode* pPhyNode, SExecTaskInfo* pTaskInfo, SReadHandle* pHandle, SNode* pTagCond,
                       SNode* pTagIndexCond, const char* pUser, const char* dbname, SOperatorInfo** pOptrInfo,
                       EOPTR_EXEC_MODEL model) {
  QRY_PARAM_CHECK(pOptrInfo);

  int32_t     code = 0;
  int32_t     type = nodeType(pPhyNode);
  const char* idstr = GET_TASKID(pTaskInfo);

  if (pPhyNode->pChildren == NULL || LIST_LENGTH(pPhyNode->pChildren) == 0) {
    SOperatorInfo* pOperator = NULL;
    if (QUERY_NODE_PHYSICAL_PLAN_TABLE_SCAN == type) {
      STableScanPhysiNode* pTableScanNode = (STableScanPhysiNode*)pPhyNode;
      // NOTE: this is an patch to fix the physical plan
      // TODO remove it later
      if (pTableScanNode->scan.node.pLimit != NULL) {
        pTableScanNode->groupSort = true;
      }

      STableListInfo* pTableListInfo = tableListCreate();
      if (!pTableListInfo) {
        pTaskInfo->code = terrno;
        qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(terrno));
        return terrno;
      }

      // Since virtual stable scan use virtual super table's uid in scan operator, the origin table might be stored on
      // different vnode, so we should not get table schema for virtual stable scan.
      if (!pTableScanNode->scan.virtualStableScan) {
        code = initQueriedTableSchemaInfo(pHandle, &pTableScanNode->scan, dbname, pTaskInfo);
        if (code) {
          pTaskInfo->code = code;
          tableListDestroy(pTableListInfo);
          return code;
        }
      }

      if (pTableScanNode->scan.node.dynamicOp) {
        pTaskInfo->dynamicTask = true;
        pTableListInfo->idInfo.suid = pTableScanNode->scan.suid;
        pTableListInfo->idInfo.tableType = pTableScanNode->scan.tableType;
      } else {
        code = createScanTableListInfo(&pTableScanNode->scan, pTableScanNode->pGroupTags, pTableScanNode->groupSort,
                                       pHandle, pTableListInfo, pTagCond, pTagIndexCond, pTaskInfo, NULL);
        if (code) {
          pTaskInfo->code = code;
          tableListDestroy(pTableListInfo);
          qError("failed to createScanTableListInfo, code:%s, %s", tstrerror(code), idstr);
          return code;
        }
      }

      code = createTableScanOperatorInfo(pTableScanNode, pHandle, pTableListInfo, pTaskInfo, &pOperator);
      if (NULL == pOperator || code != 0) {
        pTaskInfo->code = code;
        tableListDestroy(pTableListInfo);
        return code;
      }

      STableScanInfo* pScanInfo = pOperator->info;
      pTaskInfo->cost.pRecoder = &pScanInfo->base.readRecorder;
    } else if (QUERY_NODE_PHYSICAL_PLAN_TABLE_MERGE_SCAN == type) {
      STableMergeScanPhysiNode* pTableScanNode = (STableMergeScanPhysiNode*)pPhyNode;
      STableListInfo*           pTableListInfo = tableListCreate();
      if (!pTableListInfo) {
        pTaskInfo->code = terrno;
        qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(terrno));
        return terrno;
      }

      if (pTableScanNode->scan.node.dynamicOp) {
        pTaskInfo->dynamicTask = true;
        pTableListInfo->idInfo.suid = pTableScanNode->scan.suid;
        pTableListInfo->idInfo.tableType = pTableScanNode->scan.tableType;
      } else {
        code = createScanTableListInfo(&pTableScanNode->scan, pTableScanNode->pGroupTags, true, pHandle, pTableListInfo,
                                       pTagCond, pTagIndexCond, pTaskInfo, NULL);
        if (code) {
          pTaskInfo->code = code;
          tableListDestroy(pTableListInfo);
          qError("failed to createScanTableListInfo, code:%s, %s", tstrerror(code), idstr);
          return code;
        }

        code = initQueriedTableSchemaInfo(pHandle, &pTableScanNode->scan, dbname, pTaskInfo);
        if (code) {
          pTaskInfo->code = code;
          tableListDestroy(pTableListInfo);
          return code;
        }
      }

      code = createTableMergeScanOperatorInfo(pTableScanNode, pHandle, pTableListInfo, pTaskInfo, &pOperator);
      if (NULL == pOperator || code != 0) {
        pTaskInfo->code = code;
        tableListDestroy(pTableListInfo);
        return code;
      }

      STableMergeScanInfo* pScanInfo = pOperator->info;
      pTaskInfo->cost.pRecoder = &pScanInfo->base.readRecorder;
    } else if (QUERY_NODE_PHYSICAL_PLAN_EXCHANGE == type) {
      code = createExchangeOperatorInfo(pHandle ? pHandle->pMsgCb->clientRpc : NULL, (SExchangePhysiNode*)pPhyNode,
                                        pTaskInfo, &pOperator);
    } else if (QUERY_NODE_PHYSICAL_PLAN_STREAM_SCAN == type) {
      STableScanPhysiNode* pTableScanNode = (STableScanPhysiNode*)pPhyNode;
      STableListInfo*      pTableListInfo = tableListCreate();
      if (!pTableListInfo) {
        pTaskInfo->code = terrno;
        qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(terrno));
        return terrno;
      }

      if (pHandle->vnode && (pTaskInfo->pSubplan->pVTables == NULL)) {
        code = createScanTableListInfo(&pTableScanNode->scan, pTableScanNode->pGroupTags, pTableScanNode->groupSort,
                                       pHandle, pTableListInfo, pTagCond, pTagIndexCond, pTaskInfo, NULL);
        if (code) {
          pTaskInfo->code = code;
          tableListDestroy(pTableListInfo);
          qError("failed to createScanTableListInfo, code:%s", tstrerror(code));
          return code;
        }
      }

      code = createTmqScanOperatorInfo(pHandle, pTableScanNode, pTagCond, pTableListInfo, pTaskInfo, &pOperator);
      if (code) {
        pTaskInfo->code = code;
        tableListDestroy(pTableListInfo);
        return code;
      }
    } else if (QUERY_NODE_PHYSICAL_PLAN_SYSTABLE_SCAN == type) {
      SSystemTableScanPhysiNode* pSysScanPhyNode = (SSystemTableScanPhysiNode*)pPhyNode;
      if (pSysScanPhyNode->scan.virtualStableScan) {
        STableListInfo*           pTableListInfo = tableListCreate();
        if (!pTableListInfo) {
          pTaskInfo->code = terrno;
          qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(terrno));
          return terrno;
        }

        code = createScanTableListInfo((SScanPhysiNode*)pSysScanPhyNode, NULL, false, pHandle, pTableListInfo, pTagCond,
                                       pTagIndexCond, pTaskInfo, NULL);
        if (code != TSDB_CODE_SUCCESS) {
          pTaskInfo->code = code;
          tableListDestroy(pTableListInfo);
          return code;
        }

        code = createSysTableScanOperatorInfo(pHandle, pSysScanPhyNode, pTableListInfo, pUser, pTaskInfo, &pOperator);
      } else {
        code = createSysTableScanOperatorInfo(pHandle, pSysScanPhyNode, NULL, pUser, pTaskInfo, &pOperator);
      }
    } else if (QUERY_NODE_PHYSICAL_PLAN_TABLE_COUNT_SCAN == type) {
      STableCountScanPhysiNode* pTblCountScanNode = (STableCountScanPhysiNode*)pPhyNode;
      code = createTableCountScanOperatorInfo(pHandle, pTblCountScanNode, pTaskInfo, &pOperator);
    } else if (QUERY_NODE_PHYSICAL_PLAN_TAG_SCAN == type) {
      STagScanPhysiNode* pTagScanPhyNode = (STagScanPhysiNode*)pPhyNode;
      STableListInfo*    pTableListInfo = tableListCreate();
      if (!pTableListInfo) {
        pTaskInfo->code = terrno;
        qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(terrno));
        return terrno;
      }

      code = initQueriedTableSchemaInfo(pHandle, &pTagScanPhyNode->scan, dbname, pTaskInfo);
      if (code != TSDB_CODE_SUCCESS) {
        pTaskInfo->code = code;
        tableListDestroy(pTableListInfo);
        return code;
      }

      if (!pTagScanPhyNode->onlyMetaCtbIdx) {
        code = createScanTableListInfo((SScanPhysiNode*)pTagScanPhyNode, NULL, false, pHandle, pTableListInfo, pTagCond,
                                       pTagIndexCond, pTaskInfo, NULL);
        if (code != TSDB_CODE_SUCCESS) {
          pTaskInfo->code = code;
          qError("failed to getTableList, code:%s", tstrerror(code));
          tableListDestroy(pTableListInfo);
          return code;
        }
      }

      if (pTagScanPhyNode->scan.node.dynamicOp) {
        pTaskInfo->dynamicTask = true;
        pTableListInfo->idInfo.suid = pTagScanPhyNode->scan.suid;
        pTableListInfo->idInfo.tableType = pTagScanPhyNode->scan.tableType;
      }

      code = createTagScanOperatorInfo(pHandle, pTagScanPhyNode, pTableListInfo, pTagCond, pTagIndexCond, pTaskInfo,
                                       &pOperator);
      if (code) {
        pTaskInfo->code = code;
        tableListDestroy(pTableListInfo);
        return code;
      }
    } else if (QUERY_NODE_PHYSICAL_PLAN_BLOCK_DIST_SCAN == type) {
      SBlockDistScanPhysiNode* pBlockNode = (SBlockDistScanPhysiNode*)pPhyNode;
      STableListInfo*          pTableListInfo = tableListCreate();
      if (!pTableListInfo) {
        pTaskInfo->code = terrno;
        qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(terrno));
        return terrno;
      }

      if (pBlockNode->tableType == TSDB_SUPER_TABLE) {
        SArray* pList = taosArrayInit(4, sizeof(uint64_t));
        code = pTaskInfo->storageAPI.metaFn.getChildTableList(pHandle->vnode, pBlockNode->uid, pList);
        if (code != TSDB_CODE_SUCCESS) {
          pTaskInfo->code = code;
          taosArrayDestroy(pList);
          tableListDestroy(pTableListInfo);
          return code;
        }

        size_t num = taosArrayGetSize(pList);
        for (int32_t i = 0; i < num; ++i) {
          uint64_t* id = taosArrayGet(pList, i);
          if (id == NULL) {
            continue;
          }

          code = tableListAddTableInfo(pTableListInfo, *id, 0);
          if (code) {
            pTaskInfo->code = code;
            tableListDestroy(pTableListInfo);
            taosArrayDestroy(pList);
            return code;
          }
        }

        taosArrayDestroy(pList);
      } else {  // Create group with only one table
        code = tableListAddTableInfo(pTableListInfo, pBlockNode->uid, 0);
        if (code) {
          pTaskInfo->code = code;
          tableListDestroy(pTableListInfo);
          return code;
        }
      }

      code = createDataBlockInfoScanOperator(pHandle, pBlockNode, pTableListInfo, pTaskInfo, &pOperator);
      if (code) {
        pTaskInfo->code = code;
        tableListDestroy(pTableListInfo);
        return code;
      }
    } else if (QUERY_NODE_PHYSICAL_PLAN_LAST_ROW_SCAN == type) {
      SLastRowScanPhysiNode* pScanNode = (SLastRowScanPhysiNode*)pPhyNode;
      STableListInfo*        pTableListInfo = tableListCreate();
      if (!pTableListInfo) {
        pTaskInfo->code = terrno;
        qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(terrno));
        return terrno;
      }

      code = createScanTableListInfo(&pScanNode->scan, pScanNode->pGroupTags, true, pHandle, pTableListInfo, pTagCond,
                                     pTagIndexCond, pTaskInfo, NULL);
      if (code != TSDB_CODE_SUCCESS) {
        pTaskInfo->code = code;
        tableListDestroy(pTableListInfo);
        return code;
      }

      code = initQueriedTableSchemaInfo(pHandle, &pScanNode->scan, dbname, pTaskInfo);
      if (code != TSDB_CODE_SUCCESS) {
        pTaskInfo->code = code;
        tableListDestroy(pTableListInfo);
        return code;
      }

      code = createCacherowsScanOperator(pScanNode, pHandle, pTableListInfo, pTaskInfo, &pOperator);
      if (code) {
        tableListDestroy(pTableListInfo);
        pTaskInfo->code = code;
        return code;
      }
    } else if (QUERY_NODE_PHYSICAL_PLAN_PROJECT == type) {
      code = createProjectOperatorInfo(NULL, (SProjectPhysiNode*)pPhyNode, pTaskInfo, &pOperator);
    } else if (QUERY_NODE_PHYSICAL_PLAN_VIRTUAL_TABLE_SCAN == type) {
      // NOTE: this is an patch to fix the physical plan
      code = createVirtualTableMergeOperatorInfo(NULL, 0, (SVirtualScanPhysiNode*)pPhyNode, pTaskInfo, &pOperator);
    } else {
      code = TSDB_CODE_INVALID_PARA;
      pTaskInfo->code = code;
      return code;
    }

    if (pOperator != NULL) {  // todo moved away
      pOperator->resultDataBlockId = pPhyNode->pOutputDataBlockDesc->dataBlockId;
    }

    *pOptrInfo = pOperator;
    return code;
  }

  size_t          size = LIST_LENGTH(pPhyNode->pChildren);
  SOperatorInfo** ops = taosMemoryCalloc(size, POINTER_BYTES);
  if (ops == NULL) {
    code = terrno;
    pTaskInfo->code = code;
    return code;
  }

  for (int32_t i = 0; i < size; ++i) {
    SPhysiNode* pChildNode = (SPhysiNode*)nodesListGetNode(pPhyNode->pChildren, i);
    code = createOperator(pChildNode, pTaskInfo, pHandle, pTagCond, pTagIndexCond, pUser, dbname, &ops[i], model);
    if (ops[i] == NULL || code != 0) {
      for (int32_t j = 0; j < i; ++j) {
        destroyOperator(ops[j]);
      }
      taosMemoryFree(ops);
      return code;
    }
  }

  SOperatorInfo* pOptr = NULL;
  if (QUERY_NODE_PHYSICAL_PLAN_PROJECT == type) {
    code = createProjectOperatorInfo(ops[0], (SProjectPhysiNode*)pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_HASH_AGG == type) {
    SAggPhysiNode* pAggNode = (SAggPhysiNode*)pPhyNode;
    if (pAggNode->pGroupKeys != NULL) {
      code = createGroupOperatorInfo(ops[0], pAggNode, pTaskInfo, &pOptr);
    } else {
      code = createAggregateOperatorInfo(ops[0], pAggNode, pTaskInfo, &pOptr);
    }
  } else if (QUERY_NODE_PHYSICAL_PLAN_HASH_INTERVAL == type) {
    SIntervalPhysiNode* pIntervalPhyNode = (SIntervalPhysiNode*)pPhyNode;
    code = createIntervalOperatorInfo(ops[0], pIntervalPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_ALIGNED_INTERVAL == type) {
    SMergeAlignedIntervalPhysiNode* pIntervalPhyNode = (SMergeAlignedIntervalPhysiNode*)pPhyNode;
    code = createMergeAlignedIntervalOperatorInfo(ops[0], pIntervalPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_INTERVAL == type) {
    SMergeIntervalPhysiNode* pIntervalPhyNode = (SMergeIntervalPhysiNode*)pPhyNode;
    code = createMergeIntervalOperatorInfo(ops[0], pIntervalPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_SORT == type) {
    code = createSortOperatorInfo(ops[0], (SSortPhysiNode*)pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_GROUP_SORT == type) {
    code = createGroupSortOperatorInfo(ops[0], (SGroupSortPhysiNode*)pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE == type) {
    SMergePhysiNode* pMergePhyNode = (SMergePhysiNode*)pPhyNode;
    code = createMultiwayMergeOperatorInfo(ops, size, pMergePhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_SESSION == type) {
    SSessionWinodwPhysiNode* pSessionNode = (SSessionWinodwPhysiNode*)pPhyNode;
    code = createSessionAggOperatorInfo(ops[0], pSessionNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_PARTITION == type) {
    code = createPartitionOperatorInfo(ops[0], (SPartitionPhysiNode*)pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_STATE == type) {
    SStateWindowPhysiNode* pStateNode = (SStateWindowPhysiNode*)pPhyNode;
    code = createStatewindowOperatorInfo(ops[0], pStateNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_JOIN == type) {
    code = createMergeJoinOperatorInfo(ops, size, (SSortMergeJoinPhysiNode*)pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_HASH_JOIN == type) {
    code = createHashJoinOperatorInfo(ops, size, (SHashJoinPhysiNode*)pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_FILL == type) {
    code = createFillOperatorInfo(ops[0], (SFillPhysiNode*)pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_INDEF_ROWS_FUNC == type) {
    code = createIndefinitOutputOperatorInfo(ops[0], pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_INTERP_FUNC == type) {
    code = createTimeSliceOperatorInfo(ops[0], pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_FORECAST_FUNC == type) {
    code = createForecastOperatorInfo(ops[0], pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_ANALYSIS_FUNC == type) {
    code = createGenericAnalysisOperatorInfo(ops[0], pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_EVENT == type) {
    code = createEventwindowOperatorInfo(ops[0], pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_GROUP_CACHE == type) {
    code = createGroupCacheOperatorInfo(ops, size, (SGroupCachePhysiNode*)pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_DYN_QUERY_CTRL == type) {
    code = createDynQueryCtrlOperatorInfo(ops, size, (SDynQueryCtrlPhysiNode*)pPhyNode, pTaskInfo, pHandle->pMsgCb, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_COUNT == type) {
    code = createCountwindowOperatorInfo(ops[0], pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_ANOMALY == type) {
    code = createAnomalywindowOperatorInfo(ops[0], pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_VIRTUAL_TABLE_SCAN == type) {
    SVirtualScanPhysiNode* pVirtualTableScanNode = (SVirtualScanPhysiNode*)pPhyNode;
    // NOTE: this is an patch to fix the physical plan

    if (pVirtualTableScanNode->scan.node.pLimit != NULL) {
      pVirtualTableScanNode->groupSort = true;
    }
    code = createVirtualTableMergeOperatorInfo(ops, size, (SVirtualScanPhysiNode*)pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_HASH_EXTERNAL == type) {
    code = createExternalWindowOperator(ops[0], pPhyNode, pTaskInfo, &pOptr);
  } else if (QUERY_NODE_PHYSICAL_PLAN_MERGE_ALIGNED_EXTERNAL == type) {
    code = createMergeAlignedExternalWindowOperator(ops[0], pPhyNode, pTaskInfo, &pOptr);
  } else {
    code = TSDB_CODE_INVALID_PARA;
    pTaskInfo->code = code;
    for (int32_t i = 0; i < size; ++i) {
      destroyOperator(ops[i]);
    }
    taosMemoryFree(ops);
    qError("invalid operator type %d", type);
    return code;
  }

  taosMemoryFree(ops);
  if (pOptr) {
    pOptr->resultDataBlockId = pPhyNode->pOutputDataBlockDesc->dataBlockId;
  }

  *pOptrInfo = pOptr;
  return code;
}

void destroyOperator(SOperatorInfo* pOperator) {
  if (pOperator == NULL) {
    return;
  }

  freeResetOperatorParams(pOperator, OP_GET_PARAM, true);
  freeResetOperatorParams(pOperator, OP_NOTIFY_PARAM, true);

  if (pOperator->pDownstream != NULL) {
    for (int32_t i = 0; i < pOperator->numOfRealDownstream; ++i) {
      destroyOperator(pOperator->pDownstream[i]);
    }

    taosMemoryFreeClear(pOperator->pDownstream);
    pOperator->numOfDownstream = 0;
  }

  cleanupExprSupp(&pOperator->exprSupp);
  if (pOperator->fpSet.closeFn != NULL && pOperator->info != NULL) {
    pOperator->fpSet.closeFn(pOperator->info);
    pOperator->info = NULL;
  }

  taosMemoryFreeClear(pOperator);
}

void destroyOperatorAndDownstreams(SOperatorInfo* pOperator, SOperatorInfo** downstreams, int32_t num) {
  if (downstreams != NULL) {
    for (int i = 0; i < num; i++) {
      destroyOperator(downstreams[i]);
    }
  }

  if (pOperator != NULL) {
    pOperator->info = NULL;
    if (pOperator->pDownstream != NULL) {
      taosMemoryFreeClear(pOperator->pDownstream);
      pOperator->pDownstream = NULL;
    }
    destroyOperator(pOperator);
  }
}

int32_t getOperatorExplainExecInfo(SOperatorInfo* operatorInfo, SArray* pExecInfoList) {
  SExplainExecInfo  execInfo = {0};
  SExplainExecInfo* pExplainInfo = taosArrayPush(pExecInfoList, &execInfo);
  if (pExplainInfo == NULL) {
    return terrno;
  }

  pExplainInfo->numOfRows = operatorInfo->resultInfo.totalRows;
  pExplainInfo->startupCost = operatorInfo->cost.openCost;
  pExplainInfo->totalCost = operatorInfo->cost.totalCost;
  pExplainInfo->verboseLen = 0;
  pExplainInfo->verboseInfo = NULL;

  if (operatorInfo->fpSet.getExplainFn) {
    int32_t code =
        operatorInfo->fpSet.getExplainFn(operatorInfo, &pExplainInfo->verboseInfo, &pExplainInfo->verboseLen);
    if (code) {
      qError("%s operator getExplainFn failed, code:%s", GET_TASKID(operatorInfo->pTaskInfo), tstrerror(code));
      return code;
    }
  }

  int32_t code = 0;
  for (int32_t i = 0; i < operatorInfo->numOfDownstream; ++i) {
    code = getOperatorExplainExecInfo(operatorInfo->pDownstream[i], pExecInfoList);
    if (code != TSDB_CODE_SUCCESS) {
      //      taosMemoryFreeClear(*pRes);
      return code;
    }
  }

  return TSDB_CODE_SUCCESS;
}

int32_t mergeOperatorParams(SOperatorParam* pDst, SOperatorParam* pSrc) {
  if (pDst->opType != pSrc->opType) {
    qError("different optype %d:%d for merge operator params", pDst->opType, pSrc->opType);
    return TSDB_CODE_INVALID_PARA;
  }

  switch (pDst->opType) {
    case QUERY_NODE_PHYSICAL_PLAN_EXCHANGE: {
      SExchangeOperatorParam* pDExc = pDst->value;
      SExchangeOperatorParam* pSExc = pSrc->value;
      if (pSExc->basic.paramType != DYN_TYPE_EXCHANGE_PARAM) {
        qError("%s, invalid exchange operator param type %d for "
          "source operator", __func__, pSExc->basic.paramType);
        return TSDB_CODE_INVALID_PARA;
      }
      if (!pDExc->multiParams) {
        if (pDExc->basic.paramType != DYN_TYPE_EXCHANGE_PARAM) {
          qError("%s, invalid exchange operator param type %d for "
            "destination operator", __func__, pDExc->basic.paramType);
          return TSDB_CODE_INVALID_PARA;
        }
        if (pSExc->basic.vgId != pDExc->basic.vgId) {
          SExchangeOperatorBatchParam* pBatch = taosMemoryMalloc(sizeof(SExchangeOperatorBatchParam));
          if (NULL == pBatch) {
            return terrno;
          }

          pBatch->multiParams = true;
          pBatch->pBatchs = tSimpleHashInit(4, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT));
          if (NULL == pBatch->pBatchs) {
            taosMemoryFree(pBatch);
            return terrno;
          }

          tSimpleHashSetFreeFp(pBatch->pBatchs, freeExchangeGetBasicOperatorParam);

          int32_t code = tSimpleHashPut(pBatch->pBatchs, &pDExc->basic.vgId, sizeof(pDExc->basic.vgId), &pDExc->basic,
                                        sizeof(pDExc->basic));
          if (code) {
            return code;
          }

          code = tSimpleHashPut(pBatch->pBatchs, &pSExc->basic.vgId, sizeof(pSExc->basic.vgId), &pSExc->basic,
                                sizeof(pSExc->basic));
          if (code) {
            return code;
          }

          taosMemoryFree(pDst->value);
          pDst->value = pBatch;
        } else {
          void* p = taosArrayAddAll(pDExc->basic.uidList, pSExc->basic.uidList);
          if (p == NULL) {
            return terrno;
          }
        }
      } else {
        SExchangeOperatorBatchParam* pBatch = pDst->value;
        SExchangeOperatorBasicParam* pBasic =
            tSimpleHashGet(pBatch->pBatchs, &pSExc->basic.vgId, sizeof(pSExc->basic.vgId));
        if (pBasic) {
          void* p = taosArrayAddAll(pBasic->uidList, pSExc->basic.uidList);
          if (p == NULL) {
            return terrno;
          }
        } else {
          int32_t code = tSimpleHashPut(pBatch->pBatchs, &pSExc->basic.vgId, sizeof(pSExc->basic.vgId), &pSExc->basic,
                                        sizeof(pSExc->basic));
          if (code) {
            return code;
          }
        }
      }
      break;
    }
    default:
      qError("invalid optype %d for merge operator params", pDst->opType);
      return TSDB_CODE_INVALID_PARA;
  }

  return TSDB_CODE_SUCCESS;
}

int32_t setOperatorParams(struct SOperatorInfo* pOperator, SOperatorParam* pInput, SOperatorParamType type) {
  SOperatorParam**  ppParam = NULL;
  SOperatorParam*** pppDownstramParam = NULL;
  switch (type) {
    case OP_GET_PARAM:
      ppParam = &pOperator->pOperatorGetParam;
      pppDownstramParam = &pOperator->pDownstreamGetParams;
      break;
    case OP_NOTIFY_PARAM:
      ppParam = &pOperator->pOperatorNotifyParam;
      pppDownstramParam = &pOperator->pDownstreamNotifyParams;
      break;
    default:
      return TSDB_CODE_INVALID_PARA;
  }

  freeResetOperatorParams(pOperator, type, false);

  if (NULL == pInput) {
    return TSDB_CODE_SUCCESS;
  }

  *ppParam = (pInput->opType == pOperator->operatorType) ? pInput : NULL;

  if (NULL == *pppDownstramParam) {
    *pppDownstramParam = taosMemoryCalloc(pOperator->numOfDownstream, POINTER_BYTES);
    if (NULL == *pppDownstramParam) {
      return terrno;
    }
  }

  if (NULL == *ppParam) {
    for (int32_t i = 0; i < pOperator->numOfDownstream; ++i) {
      (*pppDownstramParam)[i] = pInput;
    }
    return TSDB_CODE_SUCCESS;
  }

  memset(*pppDownstramParam, 0, pOperator->numOfDownstream * POINTER_BYTES);

  int32_t childrenNum = taosArrayGetSize((*ppParam)->pChildren);
  if (childrenNum <= 0) {
    return TSDB_CODE_SUCCESS;
  }

  for (int32_t i = 0; i < childrenNum; ++i) {
    SOperatorParam* pChild = *(SOperatorParam**)taosArrayGet((*ppParam)->pChildren, i);
    if (pChild == NULL) {
      return terrno;
    }

    if ((*pppDownstramParam)[pChild->downstreamIdx]) {
      int32_t code = mergeOperatorParams((*pppDownstramParam)[pChild->downstreamIdx], pChild);
      if (code) {
        return code;
      }
    } else {
      (*pppDownstramParam)[pChild->downstreamIdx] = pChild;
    }
  }

  taosArrayDestroy((*ppParam)->pChildren);
  (*ppParam)->pChildren = NULL;

  return TSDB_CODE_SUCCESS;
}

SSDataBlock* getNextBlockFromDownstream(struct SOperatorInfo* pOperator, int32_t idx) {
  SSDataBlock* p = NULL;
  int32_t      code = getNextBlockFromDownstreamImpl(pOperator, idx, true, &p);
  if (code == TSDB_CODE_SUCCESS) {
    code = blockDataCheck(p);
    if (code != TSDB_CODE_SUCCESS) {
      qError("blockDataCheck failed, code:%s", tstrerror(code));
    }
  }
  return (code == 0) ? p : NULL;
}

SSDataBlock* getNextBlockFromDownstreamRemain(struct SOperatorInfo* pOperator, int32_t idx) {
  SSDataBlock* p = NULL;
  int32_t      code = getNextBlockFromDownstreamImpl(pOperator, idx, false, &p);
  if (code == TSDB_CODE_SUCCESS) {
    code = blockDataCheck(p);
    if (code != TSDB_CODE_SUCCESS) {
      qError("blockDataCheck failed, code:%s", tstrerror(code));
    }
  }
  return (code == 0)? p:NULL;
}

/*
 * Fetch one block from downstream without preserving reused get-param ownership.
 *
 * @param pOperator Current operator.
 * @param idx Downstream index.
 * @param pResBlock Output result block pointer.
 *
 * @return TSDB_CODE_SUCCESS on success, otherwise error code.
 */
static FORCE_INLINE int32_t getNextBlockFromDownstreamRemainDetachImpl(struct SOperatorInfo* pOperator, int32_t idx,
                                                                       SSDataBlock** pResBlock) {
  QRY_PARAM_CHECK(pResBlock);

  int32_t code = TSDB_CODE_SUCCESS;
  int32_t lino = 0;

  if (pOperator->pDownstreamGetParams && pOperator->pDownstreamGetParams[idx]) {
    SOperatorParam* pGetParam = pOperator->pDownstreamGetParams[idx];
    pOperator->pDownstreamGetParams[idx] = NULL;
    // Once detached from the parent operator, downstream must own/free this param.
    pGetParam->reUse = false;

    qDebug("DynOp: op %s start to get block from downstream %s", pOperator->name, pOperator->pDownstream[idx]->name);
    code = pOperator->pDownstream[idx]->fpSet.getNextExtFn(pOperator->pDownstream[idx], pGetParam, pResBlock);
    QUERY_CHECK_CODE(code, lino, _return);
  } else {
    code = pOperator->pDownstream[idx]->fpSet.getNextFn(pOperator->pDownstream[idx], pResBlock);
    QUERY_CHECK_CODE(code, lino, _return);
  }

_return:
  if (code) {
    qError("failed to get next data block from upstream at %s, line:%d code:%s", __func__, lino, tstrerror(code));
  }
  return code;
}

/*
 * Fetch and validate one downstream block while detaching one-shot get-param.
 *
 * @param pOperator Current operator.
 * @param idx Downstream index.
 *
 * @return Valid block pointer on success, or NULL on failure.
 */
SSDataBlock* getNextBlockFromDownstreamRemainDetach(struct SOperatorInfo* pOperator, int32_t idx) {
  SSDataBlock* p = NULL;
  int32_t      code = TSDB_CODE_SUCCESS;
  int32_t      lino = 0;

  code = getNextBlockFromDownstreamRemainDetachImpl(pOperator, idx, &p);
  QUERY_CHECK_CODE(code, lino, _return);

  code = blockDataCheck(p);
  QUERY_CHECK_CODE(code, lino, _return);

_return:
  if (code) {
    qError("failed to get next data block from downstream at %s, line:%d code:%s", __func__, lino, tstrerror(code));
    return NULL;
  }
  return p;
}

int32_t optrDefaultGetNextExtFn(struct SOperatorInfo* pOperator, SOperatorParam* pParam, SSDataBlock** pRes) {
  QRY_PARAM_CHECK(pRes);

  int32_t lino = 0;
  int32_t code = setOperatorParams(pOperator, pParam, OP_GET_PARAM);
  QUERY_CHECK_CODE(code, lino, _end);
  code = pOperator->fpSet.getNextFn(pOperator, pRes);
  QUERY_CHECK_CODE(code, lino, _end);

_end:
  if (code != TSDB_CODE_SUCCESS) {
    qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(code));
    pOperator->pTaskInfo->code = code;
    T_LONG_JMP(pOperator->pTaskInfo->env, code);
  }

  return code;
}

int32_t optrDefaultNotifyFn(struct SOperatorInfo* pOperator, SOperatorParam* pParam) {
  int32_t code = setOperatorParams(pOperator, pParam, OP_NOTIFY_PARAM);
  if (TSDB_CODE_SUCCESS == code && pOperator->fpSet.notifyFn && pOperator->pOperatorNotifyParam) {
    code = pOperator->fpSet.notifyFn(pOperator, pOperator->pOperatorNotifyParam);
  }
  if (TSDB_CODE_SUCCESS == code) {
    for (int32_t i = 0; i < pOperator->numOfDownstream; ++i) {
      if (pOperator->pDownstreamNotifyParams[i]) {
        code = optrDefaultNotifyFn(pOperator->pDownstream[i], pOperator->pDownstreamNotifyParams[i]);
        if (TSDB_CODE_SUCCESS != code) {
          break;
        }
        pOperator->pDownstreamNotifyParams[i] = NULL;
      }
    }
  }
  if (TSDB_CODE_SUCCESS != code) {
    pOperator->pTaskInfo->code = code;
    T_LONG_JMP(pOperator->pTaskInfo->env, pOperator->pTaskInfo->code);
  }

  return code;
}

int64_t getOperatorResultBlockId(struct SOperatorInfo* pOperator, int32_t idx) {
  if (pOperator->transparent) {
    return getOperatorResultBlockId(pOperator->pDownstream[idx], 0);
  }
  return pOperator->resultDataBlockId;
}

void resetOperatorState(SOperatorInfo *pOper) {
  pOper->status = OP_NOT_OPENED;
}

void resetBasicOperatorState(SOptrBasicInfo *pBasicInfo) {
  if (pBasicInfo->pRes) blockDataCleanup(pBasicInfo->pRes);
  initResultRowInfo(&pBasicInfo->resultRowInfo);
}

int32_t resetAggSup(SExprSupp* pExprSupp, SAggSupporter* pSup, SExecTaskInfo* pTaskInfo,
                    SNodeList* pNodeList, SNodeList* pGroupKeys, size_t keyBufSize, const char* pKey, void* pState,
                    SFunctionStateStore* pStore) {
  int32_t    code = 0, lino = 0, num = 0;
  SExprInfo* pExprInfo = NULL;
  cleanupAggSup(pSup);
  cleanupExprSuppWithoutFilter(pExprSupp);
  code = createExprInfo(pNodeList, pGroupKeys, &pExprInfo, &num);
  QUERY_CHECK_CODE(code, lino, _error);
  code = initAggSup(pExprSupp, pSup, pExprInfo, num, keyBufSize, pKey, pState, pStore);
  QUERY_CHECK_CODE(code, lino, _error);
  return code;
_error:
  if (code != TSDB_CODE_SUCCESS) {
    qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(code));
    pTaskInfo->code = code;
  }
  return code;
}

int32_t resetExprSupp(SExprSupp* pExprSupp, SExecTaskInfo* pTaskInfo, SNodeList* pNodeList,
                      SNodeList* pGroupKeys, SFunctionStateStore* pStore) {
  int32_t code = 0, lino = 0, num = 0;
  SExprInfo* pExprInfo = NULL;
  cleanupExprSuppWithoutFilter(pExprSupp);
  code = createExprInfo(pNodeList, pGroupKeys, &pExprInfo, &num);
  QUERY_CHECK_CODE(code, lino, _error);
  code = initExprSupp(pExprSupp, pExprInfo, num, pStore);
  QUERY_CHECK_CODE(code, lino, _error);
  return code;
_error:
  if (code != TSDB_CODE_SUCCESS) {
    qError("%s failed at line %d since %s", __func__, __LINE__, tstrerror(code));
    pTaskInfo->code = code;
  }
  return code;
}

int32_t copyColumnsValue(SNodeList* pNodeList, int64_t targetBlkId, SSDataBlock* pDst, SSDataBlock* pSrc, int32_t totalRows) {
  bool    isNull = (NULL == pSrc || pSrc->info.rows <= 0);
  size_t  numOfCols = LIST_LENGTH(pNodeList);
  int64_t numOfRows = isNull ? 0 : pSrc->info.rows;
  int32_t code = 0;
  int32_t lino = 0;

  for (int32_t i = 0; i < numOfCols; ++i) {
    STargetNode* pNode = (STargetNode*)nodesListGetNode(pNodeList, i);
    if (nodeType(pNode->pExpr) == QUERY_NODE_COLUMN && ((SColumnNode*)pNode->pExpr)->dataBlockId == targetBlkId) {
      SColumnInfoData* pDstCol = taosArrayGet(pDst->pDataBlock, pNode->slotId);
      QUERY_CHECK_NULL(pDstCol, code, lino, _return, terrno)

      if (isNull) {
        colDataSetNNULL(pDstCol, 0, totalRows);
      } else {
        SColumnInfoData* pSrcCol = taosArrayGet(pSrc->pDataBlock, ((SColumnNode*)pNode->pExpr)->slotId);
        QUERY_CHECK_NULL(pSrcCol, code, lino, _return, terrno)

        code = colDataAssign(pDstCol, pSrcCol, pSrc->info.rows, &pDst->info);

        QUERY_CHECK_CODE(code, lino, _return);
        if (pSrc->info.rows < totalRows) {
          colDataSetNNULL(pDstCol, pSrc->info.rows, totalRows - pSrc->info.rows);
        }
      }
    }
  }

  return code;
_return:
  qError("failed to copy columns value, line:%d code:%s", lino, tstrerror(code));
  return code;
}

taosdata / TDengine / #4986

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