homework-jianmu/include/libs/nodes/plannodes.h

/*
 * 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/>.
 */

#ifndef _TD_PLANN_NODES_H_
#define _TD_PLANN_NODES_H_

#ifdef __cplusplus
extern "C" {
#endif

#include "query.h"
#include "querynodes.h"
#include "tname.h"

#define SLOT_NAME_LEN TSDB_TABLE_NAME_LEN + TSDB_COL_NAME_LEN

typedef enum EDataOrderLevel {
  DATA_ORDER_LEVEL_NONE = 1,
  DATA_ORDER_LEVEL_IN_BLOCK,
  DATA_ORDER_LEVEL_IN_GROUP,
  DATA_ORDER_LEVEL_GLOBAL
} EDataOrderLevel;

typedef enum EGroupAction {
  GROUP_ACTION_NONE = 1,
  GROUP_ACTION_SET,
  GROUP_ACTION_KEEP,
  GROUP_ACTION_CLEAR
} EGroupAction;

typedef enum EMergeType {
  MERGE_TYPE_SORT = 1,
  MERGE_TYPE_NON_SORT,
  MERGE_TYPE_COLUMNS,
  MERGE_TYPE_MAX_VALUE
} EMergeType;

typedef struct SLogicNode {
  ENodeType          type;
  bool               dynamicOp;
  bool               stmtRoot;
  SNodeList*         pTargets;  // SColumnNode
  SNode*             pConditions;
  SNodeList*         pChildren;
  struct SLogicNode* pParent;
  SNodeList*         pHint;
  int32_t            optimizedFlag;
  uint8_t            precision;
  SNode*             pLimit;
  SNode*             pSlimit;
  EDataOrderLevel    requireDataOrder;  // requirements for input data
  EDataOrderLevel    resultDataOrder;   // properties of the output data
  EGroupAction       groupAction;
  EOrder             inputTsOrder;
  EOrder             outputTsOrder;
  bool               forceCreateNonBlockingOptr;  // true if the operator can use non-blocking(pipeline) mode
  bool               splitDone;
} SLogicNode;

typedef enum EScanType {
  SCAN_TYPE_TAG = 1,
  SCAN_TYPE_TABLE,
  SCAN_TYPE_SYSTEM_TABLE,
  SCAN_TYPE_STREAM,
  SCAN_TYPE_TABLE_MERGE,
  SCAN_TYPE_BLOCK_INFO,
  SCAN_TYPE_LAST_ROW,
  SCAN_TYPE_TABLE_COUNT,
} EScanType;

typedef struct SScanLogicNode {
  SLogicNode    node;
  SNodeList*    pScanCols;
  SNodeList*    pScanPseudoCols;
  int8_t        tableType;
  uint64_t      tableId;
  uint64_t      stableId;
  SVgroupsInfo* pVgroupList;
  EScanType     scanType;
  uint8_t       scanSeq[2];  // first is scan count, and second is reverse scan count
  STimeWindow   scanRange;
  SName         tableName;
  bool          showRewrite;
  double        ratio;
  SNodeList*    pDynamicScanFuncs;
  int32_t       dataRequired;
  int64_t       interval;
  int64_t       offset;
  int64_t       sliding;
  int8_t        intervalUnit;
  int8_t        slidingUnit;
  SNode*        pTagCond;
  SNode*        pTagIndexCond;
  int8_t        triggerType;
  int64_t       watermark;
  int64_t       deleteMark;
  int8_t        igExpired;
  int8_t        igCheckUpdate;
  SArray*       pSmaIndexes;
  SArray*       pTsmas;
  SArray*       pTsmaTargetTbVgInfo;
  SArray*       pTsmaTargetTbInfo;
  SNodeList*    pGroupTags;
  bool          groupSort;
  SNodeList*    pTags;      // for create stream
  SNode*        pSubtable;  // for create stream
  int8_t        cacheLastMode;
  bool          hasNormalCols;  // neither tag column nor primary key tag column
  bool          sortPrimaryKey;
  bool          igLastNull;
  bool          groupOrderScan;
  bool          onlyMetaCtbIdx;    // for tag scan with no tbname
  bool          filesetDelimited;  // returned blocks delimited by fileset
  bool          isCountByTag;      // true if selectstmt hasCountFunc & part by tag/tbname
  SArray*       pFuncTypes;        // for last, last_row
  bool          paraTablesSort;    // for table merge scan
  bool          smallDataTsSort;   // disable row id sort for table merge scan
  bool          needSplit;
  bool          noPseudoRefAfterGrp;  // no pseudo columns referenced ater group/partition clause
  bool          virtualStableScan;
} SScanLogicNode;

typedef struct SJoinLogicNode {
  SLogicNode     node;
  EJoinType      joinType;
  EJoinSubType   subType;
  SNode*         pWindowOffset;
  SNode*         pJLimit;
  EJoinAlgorithm joinAlgo;
  SNode*         addPrimEqCond;
  SNode*         pPrimKeyEqCond;
  SNode*         pColEqCond;
  SNode*         pColOnCond;
  SNode*         pTagEqCond;
  SNode*         pTagOnCond;
  SNode*         pFullOnCond;  // except prim eq cond
  SNodeList*     pLeftEqNodes;
  SNodeList*     pRightEqNodes;
  bool           allEqTags;
  bool           isSingleTableJoin;
  bool           hasSubQuery;
  bool           isLowLevelJoin;
  bool           seqWinGroup;
  bool           grpJoin;
  bool           hashJoinHint;
  bool           batchScanHint;
  
  // FOR CONST JOIN
  bool           noPrimKeyEqCond;
  bool           leftConstPrimGot;
  bool           rightConstPrimGot;
  bool           leftNoOrderedSubQuery;
  bool           rightNoOrderedSubQuery;

  // FOR HASH JOIN
  int32_t     timeRangeTarget;  // table onCond filter
  STimeWindow timeRange;        // table onCond filter
  SNode*      pLeftOnCond;      // table onCond filter
  SNode*      pRightOnCond;     // table onCond filter
} SJoinLogicNode;

typedef struct SVirtualScanLogicNode {
  SLogicNode    node;
  bool          scanAllCols;
  SNodeList*    pScanCols;
  SNodeList*    pScanPseudoCols;
  int8_t        tableType;
  uint64_t      tableId;
  uint64_t      stableId;
  SVgroupsInfo* pVgroupList;
  EScanType     scanType;
  SName         tableName;
} SVirtualScanLogicNode;

typedef struct SAggLogicNode {
  SLogicNode node;
  SNodeList* pGroupKeys;
  SNodeList* pAggFuncs;
  bool       hasLastRow;
  bool       hasLast;
  bool       hasTimeLineFunc;
  bool       onlyHasKeepOrderFunc;
  bool       hasGroupKeyOptimized;
  bool       isGroupTb;
  bool       isPartTb;  // true if partition keys has tbname
  bool       hasGroup;
  SNodeList* pTsmaSubplans;
} SAggLogicNode;

typedef struct SProjectLogicNode {
  SLogicNode node;
  SNodeList* pProjections;
  char       stmtName[TSDB_TABLE_NAME_LEN];
  bool       ignoreGroupId;
  bool       inputIgnoreGroup;
  bool       isSetOpProj;
} SProjectLogicNode;

typedef struct SIndefRowsFuncLogicNode {
  SLogicNode node;
  SNodeList* pFuncs;
  bool       isTailFunc;
  bool       isUniqueFunc;
  bool       isTimeLineFunc;
} SIndefRowsFuncLogicNode;

typedef struct SStreamNodeOption {
  int8_t  triggerType;
  int64_t watermark;
  int64_t deleteMark;
  int8_t  igExpired;
  int8_t  igCheckUpdate;
  int8_t  destHasPrimaryKey;
} SStreamNodeOption;

typedef struct SInterpFuncLogicNode {
  SLogicNode    node;
  SNodeList*    pFuncs;
  STimeWindow   timeRange;
  int64_t       interval;
  int8_t        intervalUnit;
  int8_t        precision;
  EFillMode     fillMode;
  SNode*        pFillValues;  // SNodeListNode
  SNode*        pTimeSeries;  // SColumnNode
  int64_t       rangeInterval;
  int8_t        rangeIntervalUnit;
  SStreamNodeOption streamNodeOption;
} SInterpFuncLogicNode;

typedef struct SForecastFuncLogicNode {
  SLogicNode node;
  SNodeList* pFuncs;
} SForecastFuncLogicNode;

typedef struct SGroupCacheLogicNode {
  SLogicNode node;
  bool       grpColsMayBeNull;
  bool       grpByUid;
  bool       globalGrp;
  bool       batchFetch;
  SNodeList* pGroupCols;
} SGroupCacheLogicNode;

typedef struct SDynQueryCtrlStbJoin {
  bool       batchFetch;
  SNodeList* pVgList;
  SNodeList* pUidList;
  bool       srcScan[2];
} SDynQueryCtrlStbJoin;

typedef struct SDynQueryCtrlVtbScan {
  bool          scanAllCols;
  char          dbName[TSDB_DB_NAME_LEN];
  uint64_t      suid;
  SVgroupsInfo* pVgroupList;
} SDynQueryCtrlVtbScan;

typedef struct SDynQueryCtrlLogicNode {
  SLogicNode           node;
  EDynQueryType        qType;
  SDynQueryCtrlStbJoin stbJoin;
  SDynQueryCtrlVtbScan vtbScan;
} SDynQueryCtrlLogicNode;

typedef enum EModifyTableType { MODIFY_TABLE_TYPE_INSERT = 1, MODIFY_TABLE_TYPE_DELETE } EModifyTableType;

typedef struct SVnodeModifyLogicNode {
  SLogicNode       node;
  EModifyTableType modifyType;
  int32_t          msgType;
  SArray*          pDataBlocks;
  SVgDataBlocks*   pVgDataBlocks;
  SNode*           pAffectedRows;  // SColumnNode
  SNode*           pStartTs;       // SColumnNode
  SNode*           pEndTs;         // SColumnNode
  uint64_t         tableId;
  uint64_t         stableId;
  int8_t           tableType;  // table type
  char             tableName[TSDB_TABLE_NAME_LEN];
  char             tsColName[TSDB_COL_NAME_LEN];
  STimeWindow      deleteTimeRange;
  SVgroupsInfo*    pVgroupList;
  SNodeList*       pInsertCols;
} SVnodeModifyLogicNode;

typedef struct SExchangeLogicNode {
  SLogicNode node;
  int32_t    srcStartGroupId;
  int32_t    srcEndGroupId;
  bool       seqRecvData;
} SExchangeLogicNode;

typedef struct SMergeLogicNode {
  SLogicNode node;
  SNodeList* pMergeKeys;
  SNodeList* pInputs;
  int32_t    numOfChannels;
  int32_t    numOfSubplans;
  int32_t    srcGroupId;
  int32_t    srcEndGroupId;
  bool       colsMerge;
  bool       needSort;
  bool       groupSort;
  bool       ignoreGroupId;
  bool       inputWithGroupId;
} SMergeLogicNode;

typedef enum EWindowType {
  WINDOW_TYPE_INTERVAL = 1,
  WINDOW_TYPE_SESSION,
  WINDOW_TYPE_STATE,
  WINDOW_TYPE_EVENT,
  WINDOW_TYPE_COUNT,
  WINDOW_TYPE_ANOMALY
} EWindowType;

typedef enum EWindowAlgorithm {
  INTERVAL_ALGO_HASH = 1,
  INTERVAL_ALGO_MERGE,
  INTERVAL_ALGO_STREAM_FINAL,
  INTERVAL_ALGO_STREAM_SEMI,
  INTERVAL_ALGO_STREAM_SINGLE,
  SESSION_ALGO_STREAM_SEMI,
  SESSION_ALGO_STREAM_FINAL,
  SESSION_ALGO_STREAM_SINGLE,
  SESSION_ALGO_MERGE,
  INTERVAL_ALGO_STREAM_MID,
  INTERVAL_ALGO_STREAM_CONTINUE_SINGLE,
  INTERVAL_ALGO_STREAM_CONTINUE_FINAL,
  INTERVAL_ALGO_STREAM_CONTINUE_SEMI,
  SESSION_ALGO_STREAM_CONTINUE_SINGLE,
  SESSION_ALGO_STREAM_CONTINUE_FINAL,
  SESSION_ALGO_STREAM_CONTINUE_SEMI,
} EWindowAlgorithm;

typedef struct SWindowLogicNode {
  SLogicNode       node;
  EWindowType      winType;
  SNodeList*       pFuncs;
  int64_t          interval;
  int64_t          offset;
  int64_t          sliding;
  int8_t           intervalUnit;
  int8_t           slidingUnit;
  STimeWindow      timeRange;
  int64_t          sessionGap;
  SNode*           pTspk;
  SNode*           pTsEnd;
  SNode*           pStateExpr;
  SNode*           pStartCond;
  SNode*           pEndCond;
  int64_t          trueForLimit;
  int8_t           triggerType;
  int64_t          watermark;
  int64_t          deleteMark;
  int8_t           igExpired;
  int8_t           igCheckUpdate;
  EWindowAlgorithm windowAlgo;
  bool             isPartTb;
  int64_t          windowCount;
  int64_t          windowSliding;
  SNodeList*       pTsmaSubplans;
  SNode*           pAnomalyExpr;
  char             anomalyOpt[TSDB_ANALYTIC_ALGO_OPTION_LEN];
  int64_t          recalculateInterval;
} SWindowLogicNode;

typedef struct SFillLogicNode {
  SLogicNode  node;
  EFillMode   mode;
  SNodeList*  pFillExprs;
  SNodeList*  pNotFillExprs;
  SNode*      pWStartTs;
  SNode*      pValues;  // SNodeListNode
  STimeWindow timeRange;
  SNodeList*  pFillNullExprs;
} SFillLogicNode;

typedef struct SSortLogicNode {
  SLogicNode node;
  SNodeList* pSortKeys;
  bool       groupSort;
  bool       skipPKSortOpt;
  bool       calcGroupId;
  bool       excludePkCol;  // exclude PK ts col when calc group id
} SSortLogicNode;

typedef struct SPartitionLogicNode {
  SLogicNode node;
  SNodeList* pPartitionKeys;
  SNodeList* pTags;
  SNode*     pSubtable;
  SNodeList* pAggFuncs;

  bool     needBlockOutputTsOrder;  // if true, partition output block will have ts order maintained
  int32_t  pkTsColId;
  uint64_t pkTsColTbId;
} SPartitionLogicNode;

typedef enum ESubplanType {
  SUBPLAN_TYPE_MERGE = 1,
  SUBPLAN_TYPE_PARTIAL,
  SUBPLAN_TYPE_SCAN,
  SUBPLAN_TYPE_MODIFY,
  SUBPLAN_TYPE_COMPUTE
} ESubplanType;

typedef struct SSubplanId {
  uint64_t queryId;
  int32_t  groupId;
  int32_t  subplanId;
} SSubplanId;

typedef struct SLogicSubplan {
  ENodeType     type;
  SSubplanId    id;
  SNodeList*    pChildren;
  SNodeList*    pParents;
  SLogicNode*   pNode;
  ESubplanType  subplanType;
  SVgroupsInfo* pVgroupList;
  int32_t       level;
  int32_t       splitFlag;
  int32_t       numOfComputeNodes;
  bool          processOneBlock;
} SLogicSubplan;

typedef struct SQueryLogicPlan {
  ENodeType  type;
  SNodeList* pTopSubplans;
} SQueryLogicPlan;

typedef struct SSlotDescNode {
  ENodeType type;
  int16_t   slotId;
  SDataType dataType;
  bool      reserve;
  bool      output;
  bool      tag;
  char      name[SLOT_NAME_LEN];
} SSlotDescNode;

typedef struct SDataBlockDescNode {
  ENodeType  type;
  int16_t    dataBlockId;
  SNodeList* pSlots;
  int32_t    totalRowSize;
  int32_t    outputRowSize;
  uint8_t    precision;
} SDataBlockDescNode;

typedef struct SPhysiNode {
  ENodeType           type;
  bool                dynamicOp;
  EOrder              inputTsOrder;
  EOrder              outputTsOrder;
  SDataBlockDescNode* pOutputDataBlockDesc;
  SNode*              pConditions;
  SNodeList*          pChildren;
  struct SPhysiNode*  pParent;
  SNode*              pLimit;
  SNode*              pSlimit;
  bool                forceCreateNonBlockingOptr;
} SPhysiNode;

typedef struct SScanPhysiNode {
  SPhysiNode node;
  SNodeList* pScanCols;
  SNodeList* pScanPseudoCols;
  uint64_t   uid;  // unique id of the table
  uint64_t   suid;
  int8_t     tableType;
  SName      tableName;
  bool       groupOrderScan;
  bool       virtualStableScan;
} SScanPhysiNode;

typedef struct STagScanPhysiNode {
  SScanPhysiNode scan;
  bool           onlyMetaCtbIdx;  // no tbname, tag index not used.
} STagScanPhysiNode;

typedef SScanPhysiNode SBlockDistScanPhysiNode;

typedef struct SVirtualScanPhysiNode {
  SScanPhysiNode scan;
  SNodeList*     pGroupTags;
  bool           groupSort;
  bool           scanAllCols;
  SNodeList*     pTargets;
  SNodeList*     pTags;
  SNode*         pSubtable;
  int8_t         igExpired;
  int8_t         igCheckUpdate;
}SVirtualScanPhysiNode;

typedef struct SLastRowScanPhysiNode {
  SScanPhysiNode scan;
  SNodeList*     pGroupTags;
  bool           groupSort;
  bool           ignoreNull;
  SNodeList*     pTargets;
  SArray*        pFuncTypes;
} SLastRowScanPhysiNode;

typedef SLastRowScanPhysiNode STableCountScanPhysiNode;

typedef struct SSystemTableScanPhysiNode {
  SScanPhysiNode scan;
  SEpSet         mgmtEpSet;
  bool           showRewrite;
  int32_t        accountId;
  bool           sysInfo;
} SSystemTableScanPhysiNode;

typedef struct STableScanPhysiNode {
  SScanPhysiNode scan;
  uint8_t        scanSeq[2];  // first is scan count, and second is reverse scan count
  STimeWindow    scanRange;
  double         ratio;
  int32_t        dataRequired;
  SNodeList*     pDynamicScanFuncs;
  SNodeList*     pGroupTags;
  bool           groupSort;
  SNodeList*     pTags;
  SNode*         pSubtable;
  int64_t        interval;
  int64_t        offset;
  int64_t        sliding;
  int8_t         intervalUnit;
  int8_t         slidingUnit;
  int8_t         triggerType;
  int64_t        watermark;
  int8_t         igExpired;
  bool           assignBlockUid;
  int8_t         igCheckUpdate;
  bool           filesetDelimited;
  bool           needCountEmptyTable;
  bool           paraTablesSort;
  bool           smallDataTsSort;
  char           pStbFullName[TSDB_TABLE_FNAME_LEN];
  char           pWstartName[TSDB_COL_NAME_LEN];
  char           pWendName[TSDB_COL_NAME_LEN];
  char           pGroupIdName[TSDB_COL_NAME_LEN];
  char           pIsWindowFilledName[TSDB_COL_NAME_LEN];
} STableScanPhysiNode;

typedef STableScanPhysiNode STableSeqScanPhysiNode;
typedef STableScanPhysiNode STableMergeScanPhysiNode;
typedef STableScanPhysiNode SStreamScanPhysiNode;

typedef struct SProjectPhysiNode {
  SPhysiNode node;
  SNodeList* pProjections;
  bool       mergeDataBlock;
  bool       ignoreGroupId;
  bool       inputIgnoreGroup;
} SProjectPhysiNode;

typedef struct SIndefRowsFuncPhysiNode {
  SPhysiNode node;
  SNodeList* pExprs;
  SNodeList* pFuncs;
} SIndefRowsFuncPhysiNode;

typedef struct SInterpFuncPhysiNode {
  SPhysiNode        node;
  SNodeList*        pExprs;
  SNodeList*        pFuncs;
  STimeWindow       timeRange;
  int64_t           interval;
  int8_t            intervalUnit;
  int8_t            precision;
  EFillMode         fillMode;
  SNode*            pFillValues;  // SNodeListNode
  SNode*            pTimeSeries;  // SColumnNode
  SStreamNodeOption streamNodeOption;
  int64_t       rangeInterval;
  int8_t        rangeIntervalUnit;
} SInterpFuncPhysiNode;

typedef SInterpFuncPhysiNode SStreamInterpFuncPhysiNode;

typedef struct SForecastFuncPhysiNode {
  SPhysiNode node;
  SNodeList* pExprs;
  SNodeList* pFuncs;
} SForecastFuncPhysiNode;

typedef struct SSortMergeJoinPhysiNode {
  SPhysiNode   node;
  EJoinType    joinType;
  EJoinSubType subType;
  SNode*       pWindowOffset;
  SNode*       pJLimit;
  int32_t      asofOpType;
  SNode*       leftPrimExpr;
  SNode*       rightPrimExpr;
  int32_t      leftPrimSlotId;
  int32_t      rightPrimSlotId;
  SNodeList*   pEqLeft;
  SNodeList*   pEqRight;
  SNode*       pPrimKeyCond;  // remove
  SNode*       pColEqCond;    // remove
  SNode*       pColOnCond;
  SNode*       pFullOnCond;
  SNodeList*   pTargets;
  SQueryStat   inputStat[2];
  bool         seqWinGroup;
  bool         grpJoin;
} SSortMergeJoinPhysiNode;

typedef struct SHashJoinPhysiNode {
  SPhysiNode   node;
  EJoinType    joinType;
  EJoinSubType subType;
  SNode*       pWindowOffset;
  SNode*       pJLimit;
  SNodeList*   pOnLeft;
  SNodeList*   pOnRight;
  SNode*       leftPrimExpr;
  SNode*       rightPrimExpr;
  int32_t      leftPrimSlotId;
  int32_t      rightPrimSlotId;
  int32_t      timeRangeTarget;  // table onCond filter
  STimeWindow  timeRange;        // table onCond filter
  SNode*       pLeftOnCond;      // table onCond filter
  SNode*       pRightOnCond;     // table onCond filter
  SNode*       pFullOnCond;      // preFilter
  SNodeList*   pTargets;
  SQueryStat   inputStat[2];

  // only in planner internal
  SNode* pPrimKeyCond;
  SNode* pColEqCond;
  SNode* pTagEqCond;
} SHashJoinPhysiNode;

typedef struct SGroupCachePhysiNode {
  SPhysiNode node;
  bool       grpColsMayBeNull;
  bool       grpByUid;
  bool       globalGrp;
  bool       batchFetch;
  SNodeList* pGroupCols;
} SGroupCachePhysiNode;

typedef struct SStbJoinDynCtrlBasic {
  bool    batchFetch;
  int32_t vgSlot[2];
  int32_t uidSlot[2];
  bool    srcScan[2];
} SStbJoinDynCtrlBasic;

typedef struct SVtbScanDynCtrlBasic {
  bool       scanAllCols;
  char       dbName[TSDB_DB_NAME_LEN];
  uint64_t   suid;
  int32_t    accountId;
  SEpSet     mgmtEpSet;
  SNodeList *pScanCols;
} SVtbScanDynCtrlBasic;

typedef struct SDynQueryCtrlPhysiNode {
  SPhysiNode    node;
  EDynQueryType qType;
  union {
    SStbJoinDynCtrlBasic stbJoin;
    SVtbScanDynCtrlBasic vtbScan;
  };
} SDynQueryCtrlPhysiNode;

typedef struct SAggPhysiNode {
  SPhysiNode node;
  SNodeList* pExprs;  // these are expression list of group_by_clause and parameter expression of aggregate function
  SNodeList* pGroupKeys;
  SNodeList* pAggFuncs;
  bool       mergeDataBlock;
  bool       groupKeyOptimized;
  bool       hasCountLikeFunc;
} SAggPhysiNode;

typedef struct SDownstreamSourceNode {
  ENodeType      type;
  SQueryNodeAddr addr;
  uint64_t       clientId;
  uint64_t       taskId;
  uint64_t       sId;
  int32_t        execId;
  int32_t        fetchMsgType;
  bool           localExec;
} SDownstreamSourceNode;

typedef struct SExchangePhysiNode {
  SPhysiNode node;
  // for set operators, there will be multiple execution groups under one exchange, and the ids of these execution
  // groups are consecutive
  int32_t    srcStartGroupId;
  int32_t    srcEndGroupId;
  bool       singleChannel;
  SNodeList* pSrcEndPoints;  // element is SDownstreamSource, scheduler fill by calling qSetSuplanExecutionNode
  bool       seqRecvData;
} SExchangePhysiNode;

typedef struct SMergePhysiNode {
  SPhysiNode node;
  EMergeType type;
  SNodeList* pMergeKeys;
  SNodeList* pTargets;
  int32_t    numOfChannels;
  int32_t    numOfSubplans;
  int32_t    srcGroupId;
  int32_t    srcEndGroupId;
  bool       groupSort;
  bool       ignoreGroupId;
  bool       inputWithGroupId;
} SMergePhysiNode;

typedef struct SWindowPhysiNode {
  SPhysiNode node;
  SNodeList* pExprs;  // these are expression list of parameter expression of function
  SNodeList* pFuncs;
  SNode*     pTspk;   // timestamp primary key
  SNode*     pTsEnd;  // window end timestamp
  int8_t     triggerType;
  int64_t    watermark;
  int64_t    deleteMark;
  int8_t     igExpired;
  int8_t     destHasPrimaryKey;
  bool       mergeDataBlock;
  int64_t    recalculateInterval;
} SWindowPhysiNode;

typedef struct SIntervalPhysiNode {
  SWindowPhysiNode window;
  int64_t          interval;
  int64_t          offset;
  int64_t          sliding;
  int8_t           intervalUnit;
  int8_t           slidingUnit;
  STimeWindow      timeRange;
} SIntervalPhysiNode;

typedef SIntervalPhysiNode SMergeIntervalPhysiNode;
typedef SIntervalPhysiNode SMergeAlignedIntervalPhysiNode;
typedef SIntervalPhysiNode SStreamIntervalPhysiNode;
typedef SIntervalPhysiNode SStreamFinalIntervalPhysiNode;
typedef SIntervalPhysiNode SStreamSemiIntervalPhysiNode;
typedef SIntervalPhysiNode SStreamMidIntervalPhysiNode;

typedef struct SFillPhysiNode {
  SPhysiNode  node;
  EFillMode   mode;
  SNodeList*  pFillExprs;
  SNodeList*  pNotFillExprs;
  SNode*      pWStartTs;  // SColumnNode
  SNode*      pValues;    // SNodeListNode
  STimeWindow timeRange;
  SNodeList*  pFillNullExprs;
} SFillPhysiNode;

typedef SFillPhysiNode SStreamFillPhysiNode;

typedef struct SMultiTableIntervalPhysiNode {
  SIntervalPhysiNode interval;
  SNodeList*         pPartitionKeys;
} SMultiTableIntervalPhysiNode;

typedef struct SSessionWinodwPhysiNode {
  SWindowPhysiNode window;
  int64_t          gap;
} SSessionWinodwPhysiNode;

typedef SSessionWinodwPhysiNode SStreamSessionWinodwPhysiNode;
typedef SSessionWinodwPhysiNode SStreamSemiSessionWinodwPhysiNode;
typedef SSessionWinodwPhysiNode SStreamFinalSessionWinodwPhysiNode;

typedef struct SStateWinodwPhysiNode {
  SWindowPhysiNode window;
  SNode*           pStateKey;
  int64_t          trueForLimit;
} SStateWinodwPhysiNode;

typedef SStateWinodwPhysiNode SStreamStateWinodwPhysiNode;

typedef struct SEventWinodwPhysiNode {
  SWindowPhysiNode window;
  SNode*           pStartCond;
  SNode*           pEndCond;
  int64_t          trueForLimit;
} SEventWinodwPhysiNode;

typedef SEventWinodwPhysiNode SStreamEventWinodwPhysiNode;

typedef struct SCountWinodwPhysiNode {
  SWindowPhysiNode window;
  int64_t          windowCount;
  int64_t          windowSliding;
} SCountWinodwPhysiNode;

typedef SCountWinodwPhysiNode SStreamCountWinodwPhysiNode;

typedef struct SAnomalyWindowPhysiNode {
  SWindowPhysiNode window;
  SNode*           pAnomalyKey;
  char             anomalyOpt[TSDB_ANALYTIC_ALGO_OPTION_LEN];
} SAnomalyWindowPhysiNode;

typedef struct SSortPhysiNode {
  SPhysiNode node;
  SNodeList* pExprs;     // these are expression list of order_by_clause and parameter expression of aggregate function
  SNodeList* pSortKeys;  // element is SOrderByExprNode, and SOrderByExprNode::pExpr is SColumnNode
  SNodeList* pTargets;
  bool       calcGroupId;
  bool       excludePkCol;
} SSortPhysiNode;

typedef SSortPhysiNode SGroupSortPhysiNode;

typedef struct SPartitionPhysiNode {
  SPhysiNode node;
  SNodeList* pExprs;  // these are expression list of partition_by_clause
  SNodeList* pPartitionKeys;
  SNodeList* pTargets;

  bool    needBlockOutputTsOrder;
  int32_t tsSlotId;
} SPartitionPhysiNode;

typedef struct SStreamPartitionPhysiNode {
  SPartitionPhysiNode part;
  SNodeList*          pTags;
  SNode*              pSubtable;
} SStreamPartitionPhysiNode;

typedef struct SDataSinkNode {
  ENodeType           type;
  SDataBlockDescNode* pInputDataBlockDesc;
} SDataSinkNode;

typedef struct SDataDispatcherNode {
  SDataSinkNode sink;
} SDataDispatcherNode;

typedef struct SDataInserterNode {
  SDataSinkNode sink;
  int32_t       numOfTables;
  uint32_t      size;
  void*         pData;
} SDataInserterNode;

typedef struct SQueryInserterNode {
  SDataSinkNode sink;
  SNodeList*    pCols;
  uint64_t      tableId;
  uint64_t      stableId;
  int8_t        tableType;  // table type
  char          tableName[TSDB_TABLE_NAME_LEN];
  int32_t       vgId;
  SEpSet        epSet;
  bool          explain;
} SQueryInserterNode;

typedef struct SDataDeleterNode {
  SDataSinkNode sink;
  uint64_t      tableId;
  int8_t        tableType;  // table type
  char          tableFName[TSDB_TABLE_NAME_LEN];
  char          tsColName[TSDB_COL_NAME_LEN];
  STimeWindow   deleteTimeRange;
  SNode*        pAffectedRows;  // usless
  SNode*        pStartTs;       // usless
  SNode*        pEndTs;         // usless
} SDataDeleterNode;

typedef struct SSubplan {
  ENodeType      type;
  SSubplanId     id;  // unique id of the subplan
  ESubplanType   subplanType;
  int32_t        msgType;  // message type for subplan, used to denote the send message type to vnode.
  int32_t        level;    // the execution level of current subplan, starting from 0 in a top-down manner.
  char           dbFName[TSDB_DB_FNAME_LEN];
  char           user[TSDB_USER_LEN];
  SQueryNodeAddr execNode;      // for the scan/modify subplan, the optional execution node
  SQueryNodeStat execNodeStat;  // only for scan subplan
  SNodeList*     pChildren;     // the datasource subplan,from which to fetch the result
  SNodeList*     pParents;      // the data destination subplan, get data from current subplan
  SPhysiNode*    pNode;         // physical plan of current subplan
  SDataSinkNode* pDataSink;     // data of the subplan flow into the datasink
  SNode*         pTagCond;
  SNode*         pTagIndexCond;
  SSHashObj*     pVTables;      // for stream virtual tables
  bool           showRewrite;
  bool           isView;
  bool           isAudit;
  bool           dynamicRowThreshold;
  int32_t        rowsThreshold;
  bool           processOneBlock;
} SSubplan;

typedef enum EExplainMode { EXPLAIN_MODE_DISABLE = 1, EXPLAIN_MODE_STATIC, EXPLAIN_MODE_ANALYZE } EExplainMode;

typedef struct SExplainInfo {
  EExplainMode mode;
  bool         verbose;
  double       ratio;
} SExplainInfo;

typedef struct SQueryPlan {
  ENodeType    type;
  uint64_t     queryId;
  int32_t      numOfSubplans;
  SNodeList*   pSubplans;  // Element is SNodeListNode. The execution level of subplan, starting from 0.
  SExplainInfo explainInfo;
  void*        pPostPlan;
} SQueryPlan;

const char* dataOrderStr(EDataOrderLevel order);

#ifdef __cplusplus
}
#endif

#endif /*_TD_PLANN_NODES_H_*/