dify/web/app/components/workflow/hooks/use-nodes-interactions.ts

import type { MouseEvent } from 'react'
import { useCallback, useRef } from 'react'
import { useTranslation } from 'react-i18next'
import produce from 'immer'
import type {
  NodeDragHandler,
  NodeMouseHandler,
  OnConnect,
  OnConnectEnd,
  OnConnectStart,
  ResizeParamsWithDirection,
} from 'reactflow'
import {
  getConnectedEdges,
  getOutgoers,
  useReactFlow,
  useStoreApi,
} from 'reactflow'
import { unionBy } from 'lodash-es'
import type { ToolDefaultValue } from '../block-selector/types'
import type {
  Edge,
  Node,
  OnNodeAdd,
} from '../types'
import { BlockEnum } from '../types'
import { useWorkflowStore } from '../store'
import {
  CUSTOM_EDGE,
  ITERATION_CHILDREN_Z_INDEX,
  ITERATION_PADDING,
  LOOP_CHILDREN_Z_INDEX,
  LOOP_PADDING,
  NODES_INITIAL_DATA,
  NODE_WIDTH_X_OFFSET,
  X_OFFSET,
  Y_OFFSET,
} from '../constants'
import {
  genNewNodeTitleFromOld,
  generateNewNode,
  getNodeCustomTypeByNodeDataType,
  getNodesConnectedSourceOrTargetHandleIdsMap,
  getTopLeftNodePosition,
} from '../utils'
import { CUSTOM_NOTE_NODE } from '../note-node/constants'
import type { IterationNodeType } from '../nodes/iteration/types'
import type { LoopNodeType } from '../nodes/loop/types'
import { CUSTOM_ITERATION_START_NODE } from '../nodes/iteration-start/constants'
import { CUSTOM_LOOP_START_NODE } from '../nodes/loop-start/constants'
import type { VariableAssignerNodeType } from '../nodes/variable-assigner/types'
import { useNodeIterationInteractions } from '../nodes/iteration/use-interactions'
import { useNodeLoopInteractions } from '../nodes/loop/use-interactions'
import { useWorkflowHistoryStore } from '../workflow-history-store'
import { useNodesSyncDraft } from './use-nodes-sync-draft'
import { useHelpline } from './use-helpline'
import {
  useNodesReadOnly,
  useWorkflow,
  useWorkflowReadOnly,
} from './use-workflow'
import { WorkflowHistoryEvent, useWorkflowHistory } from './use-workflow-history'

export const useNodesInteractions = () => {
  const { t } = useTranslation()
  const store = useStoreApi()
  const workflowStore = useWorkflowStore()
  const reactflow = useReactFlow()
  const { store: workflowHistoryStore } = useWorkflowHistoryStore()
  const { handleSyncWorkflowDraft } = useNodesSyncDraft()
  const {
    checkNestedParallelLimit,
    getAfterNodesInSameBranch,
  } = useWorkflow()
  const { getNodesReadOnly } = useNodesReadOnly()
  const { getWorkflowReadOnly } = useWorkflowReadOnly()
  const { handleSetHelpline } = useHelpline()
  const {
    handleNodeIterationChildDrag,
    handleNodeIterationChildrenCopy,
  } = useNodeIterationInteractions()
  const {
    handleNodeLoopChildDrag,
    handleNodeLoopChildrenCopy,
  } = useNodeLoopInteractions()
  const dragNodeStartPosition = useRef({ x: 0, y: 0 } as { x: number; y: number })

  const { saveStateToHistory, undo, redo } = useWorkflowHistory()

  const handleNodeDragStart = useCallback<NodeDragHandler>((_, node) => {
    workflowStore.setState({ nodeAnimation: false })

    if (getNodesReadOnly())
      return

    if (node.type === CUSTOM_ITERATION_START_NODE || node.type === CUSTOM_NOTE_NODE)
      return

    if (node.type === CUSTOM_LOOP_START_NODE || node.type === CUSTOM_NOTE_NODE)
      return

    dragNodeStartPosition.current = { x: node.position.x, y: node.position.y }
  }, [workflowStore, getNodesReadOnly])

  const handleNodeDrag = useCallback<NodeDragHandler>((e, node: Node) => {
    if (getNodesReadOnly())
      return

    if (node.type === CUSTOM_ITERATION_START_NODE)
      return

    if (node.type === CUSTOM_LOOP_START_NODE)
      return

    const {
      getNodes,
      setNodes,
    } = store.getState()
    e.stopPropagation()

    const nodes = getNodes()

    const { restrictPosition } = handleNodeIterationChildDrag(node)
    const { restrictPosition: restrictLoopPosition } = handleNodeLoopChildDrag(node)

    const {
      showHorizontalHelpLineNodes,
      showVerticalHelpLineNodes,
    } = handleSetHelpline(node)
    const showHorizontalHelpLineNodesLength = showHorizontalHelpLineNodes.length
    const showVerticalHelpLineNodesLength = showVerticalHelpLineNodes.length

    const newNodes = produce(nodes, (draft) => {
      const currentNode = draft.find(n => n.id === node.id)!

      if (showVerticalHelpLineNodesLength > 0)
        currentNode.position.x = showVerticalHelpLineNodes[0].position.x
      else if (restrictPosition.x !== undefined)
        currentNode.position.x = restrictPosition.x
      else if (restrictLoopPosition.x !== undefined)
        currentNode.position.x = restrictLoopPosition.x
      else
        currentNode.position.x = node.position.x

      if (showHorizontalHelpLineNodesLength > 0)
        currentNode.position.y = showHorizontalHelpLineNodes[0].position.y
      else if (restrictPosition.y !== undefined)
        currentNode.position.y = restrictPosition.y
      else if (restrictLoopPosition.y !== undefined)
        currentNode.position.y = restrictLoopPosition.y
      else
        currentNode.position.y = node.position.y
    })
    setNodes(newNodes)
  }, [getNodesReadOnly, store, handleNodeIterationChildDrag, handleNodeLoopChildDrag, handleSetHelpline])

  const handleNodeDragStop = useCallback<NodeDragHandler>((_, node) => {
    const {
      setHelpLineHorizontal,
      setHelpLineVertical,
    } = workflowStore.getState()

    if (getNodesReadOnly())
      return

    const { x, y } = dragNodeStartPosition.current
    if (!(x === node.position.x && y === node.position.y)) {
      setHelpLineHorizontal()
      setHelpLineVertical()
      handleSyncWorkflowDraft()

      if (x !== 0 && y !== 0) {
        // selecting a note will trigger a drag stop event with x and y as 0
        saveStateToHistory(WorkflowHistoryEvent.NodeDragStop)
      }
    }
  }, [workflowStore, getNodesReadOnly, saveStateToHistory, handleSyncWorkflowDraft])

  const handleNodeEnter = useCallback<NodeMouseHandler>((_, node) => {
    if (getNodesReadOnly())
      return

    if (node.type === CUSTOM_NOTE_NODE || node.type === CUSTOM_ITERATION_START_NODE)
      return

    if (node.type === CUSTOM_LOOP_START_NODE || node.type === CUSTOM_NOTE_NODE)
      return

    const {
      getNodes,
      setNodes,
      edges,
      setEdges,
    } = store.getState()
    const nodes = getNodes()
    const {
      connectingNodePayload,
      setEnteringNodePayload,
    } = workflowStore.getState()

    if (connectingNodePayload) {
      if (connectingNodePayload.nodeId === node.id)
        return
      const connectingNode: Node = nodes.find(n => n.id === connectingNodePayload.nodeId)!
      const sameLevel = connectingNode.parentId === node.parentId

      if (sameLevel) {
        setEnteringNodePayload({
          nodeId: node.id,
          nodeData: node.data as VariableAssignerNodeType,
        })
        const fromType = connectingNodePayload.handleType

        const newNodes = produce(nodes, (draft) => {
          draft.forEach((n) => {
            if (n.id === node.id && fromType === 'source' && (node.data.type === BlockEnum.VariableAssigner || node.data.type === BlockEnum.VariableAggregator)) {
              if (!node.data.advanced_settings?.group_enabled)
                n.data._isEntering = true
            }
            if (n.id === node.id && fromType === 'target' && (connectingNode.data.type === BlockEnum.VariableAssigner || connectingNode.data.type === BlockEnum.VariableAggregator) && node.data.type !== BlockEnum.IfElse && node.data.type !== BlockEnum.QuestionClassifier)
              n.data._isEntering = true
          })
        })
        setNodes(newNodes)
      }
    }
    const newEdges = produce(edges, (draft) => {
      const connectedEdges = getConnectedEdges([node], edges)

      connectedEdges.forEach((edge) => {
        const currentEdge = draft.find(e => e.id === edge.id)
        if (currentEdge)
          currentEdge.data._connectedNodeIsHovering = true
      })
    })
    setEdges(newEdges)
    const connectedEdges = getConnectedEdges([node], edges).filter(edge => edge.target === node.id)

    const targetNodes: Node[] = []
    for (let i = 0; i < connectedEdges.length; i++) {
      const sourceConnectedEdges = getConnectedEdges([{ id: connectedEdges[i].source } as Node], edges).filter(edge => edge.source === connectedEdges[i].source && edge.sourceHandle === connectedEdges[i].sourceHandle)
      targetNodes.push(...sourceConnectedEdges.map(edge => nodes.find(n => n.id === edge.target)!))
    }
    const uniqTargetNodes = unionBy(targetNodes, 'id')
    if (uniqTargetNodes.length > 1) {
      const newNodes = produce(nodes, (draft) => {
        draft.forEach((n) => {
          if (uniqTargetNodes.some(targetNode => n.id === targetNode.id))
            n.data._inParallelHovering = true
        })
      })
      setNodes(newNodes)
    }
  }, [store, workflowStore, getNodesReadOnly])

  const handleNodeLeave = useCallback<NodeMouseHandler>((_, node) => {
    if (getNodesReadOnly())
      return

    if (node.type === CUSTOM_NOTE_NODE || node.type === CUSTOM_ITERATION_START_NODE)
      return

    if (node.type === CUSTOM_NOTE_NODE || node.type === CUSTOM_LOOP_START_NODE)
      return

    const {
      setEnteringNodePayload,
    } = workflowStore.getState()
    setEnteringNodePayload(undefined)
    const {
      getNodes,
      setNodes,
      edges,
      setEdges,
    } = store.getState()
    const newNodes = produce(getNodes(), (draft) => {
      draft.forEach((node) => {
        node.data._isEntering = false
        node.data._inParallelHovering = false
      })
    })
    setNodes(newNodes)
    const newEdges = produce(edges, (draft) => {
      draft.forEach((edge) => {
        edge.data._connectedNodeIsHovering = false
      })
    })
    setEdges(newEdges)
  }, [store, workflowStore, getNodesReadOnly])

  const handleNodeSelect = useCallback((nodeId: string, cancelSelection?: boolean) => {
    const {
      getNodes,
      setNodes,
      edges,
      setEdges,
    } = store.getState()

    const nodes = getNodes()
    const selectedNode = nodes.find(node => node.data.selected)

    if (!cancelSelection && selectedNode?.id === nodeId)
      return

    const newNodes = produce(nodes, (draft) => {
      draft.forEach((node) => {
        if (node.id === nodeId)
          node.data.selected = !cancelSelection
        else
          node.data.selected = false
      })
    })
    setNodes(newNodes)

    const connectedEdges = getConnectedEdges([{ id: nodeId } as Node], edges).map(edge => edge.id)
    const newEdges = produce(edges, (draft) => {
      draft.forEach((edge) => {
        if (connectedEdges.includes(edge.id)) {
          edge.data = {
            ...edge.data,
            _connectedNodeIsSelected: !cancelSelection,
          }
        }
        else {
          edge.data = {
            ...edge.data,
            _connectedNodeIsSelected: false,
          }
        }
      })
    })
    setEdges(newEdges)

    handleSyncWorkflowDraft()
  }, [store, handleSyncWorkflowDraft])

  const handleNodeClick = useCallback<NodeMouseHandler>((_, node) => {
    if (node.type === CUSTOM_ITERATION_START_NODE)
      return
    if (node.type === CUSTOM_LOOP_START_NODE)
      return
    handleNodeSelect(node.id)
  }, [handleNodeSelect])

  const handleNodeConnect = useCallback<OnConnect>(({
    source,
    sourceHandle,
    target,
    targetHandle,
  }) => {
    if (source === target)
      return
    if (getNodesReadOnly())
      return

    const {
      getNodes,
      setNodes,
      edges,
      setEdges,
    } = store.getState()
    const nodes = getNodes()
    const targetNode = nodes.find(node => node.id === target!)
    const sourceNode = nodes.find(node => node.id === source!)

    if (targetNode?.parentId !== sourceNode?.parentId)
      return

    if (sourceNode?.type === CUSTOM_NOTE_NODE || targetNode?.type === CUSTOM_NOTE_NODE)
      return

    if (edges.find(edge => edge.source === source && edge.sourceHandle === sourceHandle && edge.target === target && edge.targetHandle === targetHandle))
      return

    const parendNode = nodes.find(node => node.id === targetNode?.parentId)
    const isInIteration = parendNode && parendNode.data.type === BlockEnum.Iteration
    const isInLoop = !!parendNode && parendNode.data.type === BlockEnum.Loop

    const newEdge = {
      id: `${source}-${sourceHandle}-${target}-${targetHandle}`,
      type: CUSTOM_EDGE,
      source: source!,
      target: target!,
      sourceHandle,
      targetHandle,
      data: {
        sourceType: nodes.find(node => node.id === source)!.data.type,
        targetType: nodes.find(node => node.id === target)!.data.type,
        isInIteration,
        iteration_id: isInIteration ? targetNode?.parentId : undefined,
        isInLoop,
        loop_id: isInLoop ? targetNode?.parentId : undefined,
      },
      zIndex: targetNode?.parentId ? (isInIteration ? ITERATION_CHILDREN_Z_INDEX : LOOP_CHILDREN_Z_INDEX) : 0,
    }
    const nodesConnectedSourceOrTargetHandleIdsMap = getNodesConnectedSourceOrTargetHandleIdsMap(
      [
        { type: 'add', edge: newEdge },
      ],
      nodes,
    )
    const newNodes = produce(nodes, (draft: Node[]) => {
      draft.forEach((node) => {
        if (nodesConnectedSourceOrTargetHandleIdsMap[node.id]) {
          node.data = {
            ...node.data,
            ...nodesConnectedSourceOrTargetHandleIdsMap[node.id],
          }
        }
      })
    })
    const newEdges = produce(edges, (draft) => {
      draft.push(newEdge)
    })

    if (checkNestedParallelLimit(newNodes, newEdges, targetNode?.parentId)) {
      setNodes(newNodes)
      setEdges(newEdges)

      handleSyncWorkflowDraft()
      saveStateToHistory(WorkflowHistoryEvent.NodeConnect)
    }
    else {
      const {
        setConnectingNodePayload,
        setEnteringNodePayload,
      } = workflowStore.getState()
      setConnectingNodePayload(undefined)
      setEnteringNodePayload(undefined)
    }
  }, [getNodesReadOnly, store, workflowStore, handleSyncWorkflowDraft, saveStateToHistory, checkNestedParallelLimit])

  const handleNodeConnectStart = useCallback<OnConnectStart>((_, { nodeId, handleType, handleId }) => {
    if (getNodesReadOnly())
      return

    if (nodeId && handleType) {
      const { setConnectingNodePayload } = workflowStore.getState()
      const { getNodes } = store.getState()
      const node = getNodes().find(n => n.id === nodeId)!

      if (node.type === CUSTOM_NOTE_NODE)
        return

      if (node.data.type === BlockEnum.VariableAggregator || node.data.type === BlockEnum.VariableAssigner) {
        if (handleType === 'target')
          return
      }

      setConnectingNodePayload({
        nodeId,
        nodeType: node.data.type,
        handleType,
        handleId,
      })
    }
  }, [store, workflowStore, getNodesReadOnly])

  const handleNodeConnectEnd = useCallback<OnConnectEnd>((e: any) => {
    if (getNodesReadOnly())
      return

    const {
      connectingNodePayload,
      setConnectingNodePayload,
      enteringNodePayload,
      setEnteringNodePayload,
    } = workflowStore.getState()
    if (connectingNodePayload && enteringNodePayload) {
      const {
        setShowAssignVariablePopup,
        hoveringAssignVariableGroupId,
      } = workflowStore.getState()
      const { screenToFlowPosition } = reactflow
      const {
        getNodes,
        setNodes,
      } = store.getState()
      const nodes = getNodes()
      const fromHandleType = connectingNodePayload.handleType
      const fromHandleId = connectingNodePayload.handleId
      const fromNode = nodes.find(n => n.id === connectingNodePayload.nodeId)!
      const toNode = nodes.find(n => n.id === enteringNodePayload.nodeId)!
      const toParentNode = nodes.find(n => n.id === toNode.parentId)

      if (fromNode.parentId !== toNode.parentId)
        return

      const { x, y } = screenToFlowPosition({ x: e.x, y: e.y })

      if (fromHandleType === 'source' && (toNode.data.type === BlockEnum.VariableAssigner || toNode.data.type === BlockEnum.VariableAggregator)) {
        const groupEnabled = toNode.data.advanced_settings?.group_enabled
        const firstGroupId = toNode.data.advanced_settings?.groups[0].groupId
        let handleId = 'target'

        if (groupEnabled) {
          if (hoveringAssignVariableGroupId)
            handleId = hoveringAssignVariableGroupId
          else
            handleId = firstGroupId
        }
        const newNodes = produce(nodes, (draft) => {
          draft.forEach((node) => {
            if (node.id === toNode.id) {
              node.data._showAddVariablePopup = true
              node.data._holdAddVariablePopup = true
            }
          })
        })
        setNodes(newNodes)
        setShowAssignVariablePopup({
          nodeId: fromNode.id,
          nodeData: fromNode.data,
          variableAssignerNodeId: toNode.id,
          variableAssignerNodeData: toNode.data,
          variableAssignerNodeHandleId: handleId,
          parentNode: toParentNode,
          x: x - toNode.positionAbsolute!.x,
          y: y - toNode.positionAbsolute!.y,
        })
        handleNodeConnect({
          source: fromNode.id,
          sourceHandle: fromHandleId,
          target: toNode.id,
          targetHandle: 'target',
        })
      }
    }
    setConnectingNodePayload(undefined)
    setEnteringNodePayload(undefined)
  }, [store, handleNodeConnect, getNodesReadOnly, workflowStore, reactflow])

  const handleNodeDelete = useCallback((nodeId: string) => {
    if (getNodesReadOnly())
      return

    const {
      getNodes,
      setNodes,
      edges,
      setEdges,
    } = store.getState()

    const nodes = getNodes()
    const currentNodeIndex = nodes.findIndex(node => node.id === nodeId)
    const currentNode = nodes[currentNodeIndex]

    if (!currentNode)
      return

    if (currentNode.data.type === BlockEnum.Start)
      return

    if (currentNode.data.type === BlockEnum.Iteration) {
      const iterationChildren = nodes.filter(node => node.parentId === currentNode.id)

      if (iterationChildren.length) {
        if (currentNode.data._isBundled) {
          iterationChildren.forEach((child) => {
            handleNodeDelete(child.id)
          })
          return handleNodeDelete(nodeId)
        }
        else {
          if (iterationChildren.length === 1) {
            handleNodeDelete(iterationChildren[0].id)
            handleNodeDelete(nodeId)

            return
          }
          const { setShowConfirm, showConfirm } = workflowStore.getState()

          if (!showConfirm) {
            setShowConfirm({
              title: t('workflow.nodes.iteration.deleteTitle'),
              desc: t('workflow.nodes.iteration.deleteDesc') || '',
              onConfirm: () => {
                iterationChildren.forEach((child) => {
                  handleNodeDelete(child.id)
                })
                handleNodeDelete(nodeId)
                handleSyncWorkflowDraft()
                setShowConfirm(undefined)
              },
            })
            return
          }
        }
      }
    }

    if (currentNode.data.type === BlockEnum.Loop) {
      const loopChildren = nodes.filter(node => node.parentId === currentNode.id)

      if (loopChildren.length) {
        if (currentNode.data._isBundled) {
          loopChildren.forEach((child) => {
            handleNodeDelete(child.id)
          })
          return handleNodeDelete(nodeId)
        }
        else {
          if (loopChildren.length === 1) {
            handleNodeDelete(loopChildren[0].id)
            handleNodeDelete(nodeId)

            return
          }
          const { setShowConfirm, showConfirm } = workflowStore.getState()

          if (!showConfirm) {
            setShowConfirm({
              title: t('workflow.nodes.loop.deleteTitle'),
              desc: t('workflow.nodes.loop.deleteDesc') || '',
              onConfirm: () => {
                loopChildren.forEach((child) => {
                  handleNodeDelete(child.id)
                })
                handleNodeDelete(nodeId)
                handleSyncWorkflowDraft()
                setShowConfirm(undefined)
              },
            })
            return
          }
        }
      }
    }

    const connectedEdges = getConnectedEdges([{ id: nodeId } as Node], edges)
    const nodesConnectedSourceOrTargetHandleIdsMap = getNodesConnectedSourceOrTargetHandleIdsMap(connectedEdges.map(edge => ({ type: 'remove', edge })), nodes)
    const newNodes = produce(nodes, (draft: Node[]) => {
      draft.forEach((node) => {
        if (nodesConnectedSourceOrTargetHandleIdsMap[node.id]) {
          node.data = {
            ...node.data,
            ...nodesConnectedSourceOrTargetHandleIdsMap[node.id],
          }
        }

        if (node.id === currentNode.parentId)
          node.data._children = node.data._children?.filter(child => child.nodeId !== nodeId)
      })
      draft.splice(currentNodeIndex, 1)
    })
    setNodes(newNodes)
    const newEdges = produce(edges, (draft) => {
      return draft.filter(edge => !connectedEdges.find(connectedEdge => connectedEdge.id === edge.id))
    })
    setEdges(newEdges)
    handleSyncWorkflowDraft()

    if (currentNode.type === CUSTOM_NOTE_NODE)
      saveStateToHistory(WorkflowHistoryEvent.NoteDelete)

    else
      saveStateToHistory(WorkflowHistoryEvent.NodeDelete)
  }, [getNodesReadOnly, store, handleSyncWorkflowDraft, saveStateToHistory, workflowStore, t])

  const handleNodeAdd = useCallback<OnNodeAdd>((
    {
      nodeType,
      sourceHandle = 'source',
      targetHandle = 'target',
      toolDefaultValue,
    },
    {
      prevNodeId,
      prevNodeSourceHandle,
      nextNodeId,
      nextNodeTargetHandle,
    },
  ) => {
    if (getNodesReadOnly())
      return

    const {
      getNodes,
      setNodes,
      edges,
      setEdges,
    } = store.getState()
    const nodes = getNodes()
    const nodesWithSameType = nodes.filter(node => node.data.type === nodeType)
    const {
      newNode,
      newIterationStartNode,
      newLoopStartNode,
    } = generateNewNode({
      type: getNodeCustomTypeByNodeDataType(nodeType),
      data: {
        ...NODES_INITIAL_DATA[nodeType],
        title: nodesWithSameType.length > 0 ? `${t(`workflow.blocks.${nodeType}`)} ${nodesWithSameType.length + 1}` : t(`workflow.blocks.${nodeType}`),
        ...(toolDefaultValue || {}),
        selected: true,
        _showAddVariablePopup: (nodeType === BlockEnum.VariableAssigner || nodeType === BlockEnum.VariableAggregator) && !!prevNodeId,
        _holdAddVariablePopup: false,
      },
      position: {
        x: 0,
        y: 0,
      },
    })
    if (prevNodeId && !nextNodeId) {
      const prevNodeIndex = nodes.findIndex(node => node.id === prevNodeId)
      const prevNode = nodes[prevNodeIndex]
      const outgoers = getOutgoers(prevNode, nodes, edges).sort((a, b) => a.position.y - b.position.y)
      const lastOutgoer = outgoers[outgoers.length - 1]

      newNode.data._connectedTargetHandleIds = [targetHandle]
      newNode.data._connectedSourceHandleIds = []
      newNode.position = {
        x: lastOutgoer ? lastOutgoer.position.x : prevNode.position.x + prevNode.width! + X_OFFSET,
        y: lastOutgoer ? lastOutgoer.position.y + lastOutgoer.height! + Y_OFFSET : prevNode.position.y,
      }
      newNode.parentId = prevNode.parentId
      newNode.extent = prevNode.extent

      const parentNode = nodes.find(node => node.id === prevNode.parentId) || null
      const isInIteration = !!parentNode && parentNode.data.type === BlockEnum.Iteration
      const isInLoop = !!parentNode && parentNode.data.type === BlockEnum.Loop

      if (prevNode.parentId) {
        newNode.data.isInIteration = isInIteration
        newNode.data.isInLoop = isInLoop
        if (isInIteration) {
          newNode.data.iteration_id = parentNode.id
          newNode.zIndex = ITERATION_CHILDREN_Z_INDEX
        }
        if (isInLoop) {
          newNode.data.loop_id = parentNode.id
          newNode.zIndex = LOOP_CHILDREN_Z_INDEX
        }
        if (isInIteration && (newNode.data.type === BlockEnum.Answer || newNode.data.type === BlockEnum.Tool || newNode.data.type === BlockEnum.Assigner)) {
          const iterNodeData: IterationNodeType = parentNode.data
          iterNodeData._isShowTips = true
        }
        if (isInLoop && (newNode.data.type === BlockEnum.Answer || newNode.data.type === BlockEnum.Tool || newNode.data.type === BlockEnum.Assigner)) {
          const iterNodeData: IterationNodeType = parentNode.data
          iterNodeData._isShowTips = true
        }
      }

      const newEdge: Edge = {
        id: `${prevNodeId}-${prevNodeSourceHandle}-${newNode.id}-${targetHandle}`,
        type: CUSTOM_EDGE,
        source: prevNodeId,
        sourceHandle: prevNodeSourceHandle,
        target: newNode.id,
        targetHandle,
        data: {
          sourceType: prevNode.data.type,
          targetType: newNode.data.type,
          isInIteration,
          isInLoop,
          iteration_id: isInIteration ? prevNode.parentId : undefined,
          loop_id: isInLoop ? prevNode.parentId : undefined,
          _connectedNodeIsSelected: true,
        },
        zIndex: prevNode.parentId ? (isInIteration ? ITERATION_CHILDREN_Z_INDEX : LOOP_CHILDREN_Z_INDEX) : 0,
      }
      const nodesConnectedSourceOrTargetHandleIdsMap = getNodesConnectedSourceOrTargetHandleIdsMap(
        [
          { type: 'add', edge: newEdge },
        ],
        nodes,
      )
      const newNodes = produce(nodes, (draft: Node[]) => {
        draft.forEach((node) => {
          node.data.selected = false

          if (nodesConnectedSourceOrTargetHandleIdsMap[node.id]) {
            node.data = {
              ...node.data,
              ...nodesConnectedSourceOrTargetHandleIdsMap[node.id],
            }
          }

          if (node.data.type === BlockEnum.Iteration && prevNode.parentId === node.id)
            node.data._children?.push({ nodeId: newNode.id, nodeType: newNode.data.type })

          if (node.data.type === BlockEnum.Loop && prevNode.parentId === node.id)
            node.data._children?.push({ nodeId: newNode.id, nodeType: newNode.data.type })
        })
        draft.push(newNode)

        if (newIterationStartNode)
          draft.push(newIterationStartNode)

        if (newLoopStartNode)
          draft.push(newLoopStartNode)
      })

      if (newNode.data.type === BlockEnum.VariableAssigner || newNode.data.type === BlockEnum.VariableAggregator) {
        const { setShowAssignVariablePopup } = workflowStore.getState()

        setShowAssignVariablePopup({
          nodeId: prevNode.id,
          nodeData: prevNode.data,
          variableAssignerNodeId: newNode.id,
          variableAssignerNodeData: (newNode.data as VariableAssignerNodeType),
          variableAssignerNodeHandleId: targetHandle,
          parentNode: nodes.find(node => node.id === newNode.parentId),
          x: -25,
          y: 44,
        })
      }
      const newEdges = produce(edges, (draft) => {
        draft.forEach((item) => {
          item.data = {
            ...item.data,
            _connectedNodeIsSelected: false,
          }
        })
        draft.push(newEdge)
      })

      if (checkNestedParallelLimit(newNodes, newEdges, prevNode.parentId)) {
        setNodes(newNodes)
        setEdges(newEdges)
      }
      else {
        return false
      }
    }
    if (!prevNodeId && nextNodeId) {
      const nextNodeIndex = nodes.findIndex(node => node.id === nextNodeId)
      const nextNode = nodes[nextNodeIndex]!
      if ((nodeType !== BlockEnum.IfElse) && (nodeType !== BlockEnum.QuestionClassifier))
        newNode.data._connectedSourceHandleIds = [sourceHandle]
      newNode.data._connectedTargetHandleIds = []
      newNode.position = {
        x: nextNode.position.x,
        y: nextNode.position.y,
      }
      newNode.parentId = nextNode.parentId
      newNode.extent = nextNode.extent

      const parentNode = nodes.find(node => node.id === nextNode.parentId) || null
      const isInIteration = !!parentNode && parentNode.data.type === BlockEnum.Iteration
      const isInLoop = !!parentNode && parentNode.data.type === BlockEnum.Loop

      if (parentNode && nextNode.parentId) {
        newNode.data.isInIteration = isInIteration
        newNode.data.isInLoop = isInLoop
        if (isInIteration) {
          newNode.data.iteration_id = parentNode.id
          newNode.zIndex = ITERATION_CHILDREN_Z_INDEX
        }
        if (isInLoop) {
          newNode.data.loop_id = parentNode.id
          newNode.zIndex = LOOP_CHILDREN_Z_INDEX
        }
      }

      let newEdge

      if ((nodeType !== BlockEnum.IfElse) && (nodeType !== BlockEnum.QuestionClassifier) && (nodeType !== BlockEnum.LoopEnd)) {
        newEdge = {
          id: `${newNode.id}-${sourceHandle}-${nextNodeId}-${nextNodeTargetHandle}`,
          type: CUSTOM_EDGE,
          source: newNode.id,
          sourceHandle,
          target: nextNodeId,
          targetHandle: nextNodeTargetHandle,
          data: {
            sourceType: newNode.data.type,
            targetType: nextNode.data.type,
            isInIteration,
            isInLoop,
            iteration_id: isInIteration ? nextNode.parentId : undefined,
            loop_id: isInLoop ? nextNode.parentId : undefined,
            _connectedNodeIsSelected: true,
          },
          zIndex: nextNode.parentId ? (isInIteration ? ITERATION_CHILDREN_Z_INDEX : LOOP_CHILDREN_Z_INDEX) : 0,
        }
      }

      let nodesConnectedSourceOrTargetHandleIdsMap: Record<string, any>
      if (newEdge) {
        nodesConnectedSourceOrTargetHandleIdsMap = getNodesConnectedSourceOrTargetHandleIdsMap(
          [
            { type: 'add', edge: newEdge },
          ],
          nodes,
        )
      }

      const afterNodesInSameBranch = getAfterNodesInSameBranch(nextNodeId!)
      const afterNodesInSameBranchIds = afterNodesInSameBranch.map(node => node.id)
      const newNodes = produce(nodes, (draft) => {
        draft.forEach((node) => {
          node.data.selected = false

          if (afterNodesInSameBranchIds.includes(node.id))
            node.position.x += NODE_WIDTH_X_OFFSET

          if (nodesConnectedSourceOrTargetHandleIdsMap?.[node.id]) {
            node.data = {
              ...node.data,
              ...nodesConnectedSourceOrTargetHandleIdsMap[node.id],
            }
          }

          if (node.data.type === BlockEnum.Iteration && nextNode.parentId === node.id)
            node.data._children?.push({ nodeId: newNode.id, nodeType: newNode.data.type })

          if (node.data.type === BlockEnum.Iteration && node.data.start_node_id === nextNodeId) {
            node.data.start_node_id = newNode.id
            node.data.startNodeType = newNode.data.type
          }

          if (node.data.type === BlockEnum.Loop && nextNode.parentId === node.id)
            node.data._children?.push({ nodeId: newNode.id, nodeType: newNode.data.type })

          if (node.data.type === BlockEnum.Loop && node.data.start_node_id === nextNodeId) {
            node.data.start_node_id = newNode.id
            node.data.startNodeType = newNode.data.type
          }
        })
        draft.push(newNode)
        if (newIterationStartNode)
          draft.push(newIterationStartNode)
        if (newLoopStartNode)
          draft.push(newLoopStartNode)
      })
      if (newEdge) {
        const newEdges = produce(edges, (draft) => {
          draft.forEach((item) => {
            item.data = {
              ...item.data,
              _connectedNodeIsSelected: false,
            }
          })
          draft.push(newEdge)
        })

        if (checkNestedParallelLimit(newNodes, newEdges, nextNode.parentId)) {
          setNodes(newNodes)
          setEdges(newEdges)
        }
        else {
          return false
        }
      }
      else {
        if (checkNestedParallelLimit(newNodes, edges))
          setNodes(newNodes)

        else
          return false
      }
    }
    if (prevNodeId && nextNodeId) {
      const prevNode = nodes.find(node => node.id === prevNodeId)!
      const nextNode = nodes.find(node => node.id === nextNodeId)!

      newNode.data._connectedTargetHandleIds = [targetHandle]
      newNode.data._connectedSourceHandleIds = [sourceHandle]
      newNode.position = {
        x: nextNode.position.x,
        y: nextNode.position.y,
      }
      newNode.parentId = prevNode.parentId
      newNode.extent = prevNode.extent

      const parentNode = nodes.find(node => node.id === prevNode.parentId) || null
      const isInIteration = !!parentNode && parentNode.data.type === BlockEnum.Iteration
      const isInLoop = !!parentNode && parentNode.data.type === BlockEnum.Loop

      if (parentNode && prevNode.parentId) {
        newNode.data.isInIteration = isInIteration
        newNode.data.isInLoop = isInLoop
        if (isInIteration) {
          newNode.data.iteration_id = parentNode.id
          newNode.zIndex = ITERATION_CHILDREN_Z_INDEX
        }
        if (isInLoop) {
          newNode.data.loop_id = parentNode.id
          newNode.zIndex = LOOP_CHILDREN_Z_INDEX
        }
      }

      const currentEdgeIndex = edges.findIndex(edge => edge.source === prevNodeId && edge.target === nextNodeId)
      const newPrevEdge = {
        id: `${prevNodeId}-${prevNodeSourceHandle}-${newNode.id}-${targetHandle}`,
        type: CUSTOM_EDGE,
        source: prevNodeId,
        sourceHandle: prevNodeSourceHandle,
        target: newNode.id,
        targetHandle,
        data: {
          sourceType: prevNode.data.type,
          targetType: newNode.data.type,
          isInIteration,
          isInLoop,
          iteration_id: isInIteration ? prevNode.parentId : undefined,
          loop_id: isInLoop ? prevNode.parentId : undefined,
          _connectedNodeIsSelected: true,
        },
        zIndex: prevNode.parentId ? (isInIteration ? ITERATION_CHILDREN_Z_INDEX : LOOP_CHILDREN_Z_INDEX) : 0,
      }
      let newNextEdge: Edge | null = null

      const nextNodeParentNode = nodes.find(node => node.id === nextNode.parentId) || null
      const isNextNodeInIteration = !!nextNodeParentNode && nextNodeParentNode.data.type === BlockEnum.Iteration
      const isNextNodeInLoop = !!nextNodeParentNode && nextNodeParentNode.data.type === BlockEnum.Loop

      if (nodeType !== BlockEnum.IfElse && nodeType !== BlockEnum.QuestionClassifier && nodeType !== BlockEnum.LoopEnd) {
        newNextEdge = {
          id: `${newNode.id}-${sourceHandle}-${nextNodeId}-${nextNodeTargetHandle}`,
          type: CUSTOM_EDGE,
          source: newNode.id,
          sourceHandle,
          target: nextNodeId,
          targetHandle: nextNodeTargetHandle,
          data: {
            sourceType: newNode.data.type,
            targetType: nextNode.data.type,
            isInIteration: isNextNodeInIteration,
            isInLoop: isNextNodeInLoop,
            iteration_id: isNextNodeInIteration ? nextNode.parentId : undefined,
            loop_id: isNextNodeInLoop ? nextNode.parentId : undefined,
            _connectedNodeIsSelected: true,
          },
          zIndex: nextNode.parentId ? (isNextNodeInIteration ? ITERATION_CHILDREN_Z_INDEX : LOOP_CHILDREN_Z_INDEX) : 0,
        }
      }
      const nodesConnectedSourceOrTargetHandleIdsMap = getNodesConnectedSourceOrTargetHandleIdsMap(
        [
          { type: 'remove', edge: edges[currentEdgeIndex] },
          { type: 'add', edge: newPrevEdge },
          ...(newNextEdge ? [{ type: 'add', edge: newNextEdge }] : []),
        ],
        [...nodes, newNode],
      )

      const afterNodesInSameBranch = getAfterNodesInSameBranch(nextNodeId!)
      const afterNodesInSameBranchIds = afterNodesInSameBranch.map(node => node.id)
      const newNodes = produce(nodes, (draft) => {
        draft.forEach((node) => {
          node.data.selected = false

          if (nodesConnectedSourceOrTargetHandleIdsMap[node.id]) {
            node.data = {
              ...node.data,
              ...nodesConnectedSourceOrTargetHandleIdsMap[node.id],
            }
          }
          if (afterNodesInSameBranchIds.includes(node.id))
            node.position.x += NODE_WIDTH_X_OFFSET

          if (node.data.type === BlockEnum.Iteration && prevNode.parentId === node.id)
            node.data._children?.push({ nodeId: newNode.id, nodeType: newNode.data.type })
          if (node.data.type === BlockEnum.Loop && prevNode.parentId === node.id)
            node.data._children?.push({ nodeId: newNode.id, nodeType: newNode.data.type })
        })
        draft.push(newNode)
        if (newIterationStartNode)
          draft.push(newIterationStartNode)
        if (newLoopStartNode)
          draft.push(newLoopStartNode)
      })
      setNodes(newNodes)
      if (newNode.data.type === BlockEnum.VariableAssigner || newNode.data.type === BlockEnum.VariableAggregator) {
        const { setShowAssignVariablePopup } = workflowStore.getState()

        setShowAssignVariablePopup({
          nodeId: prevNode.id,
          nodeData: prevNode.data,
          variableAssignerNodeId: newNode.id,
          variableAssignerNodeData: newNode.data as VariableAssignerNodeType,
          variableAssignerNodeHandleId: targetHandle,
          parentNode: nodes.find(node => node.id === newNode.parentId),
          x: -25,
          y: 44,
        })
      }
      const newEdges = produce(edges, (draft) => {
        draft.splice(currentEdgeIndex, 1)
        draft.forEach((item) => {
          item.data = {
            ...item.data,
            _connectedNodeIsSelected: false,
          }
        })
        draft.push(newPrevEdge)

        if (newNextEdge)
          draft.push(newNextEdge)
      })
      setEdges(newEdges)
    }
    handleSyncWorkflowDraft()
    saveStateToHistory(WorkflowHistoryEvent.NodeAdd)
  }, [getNodesReadOnly, store, t, handleSyncWorkflowDraft, saveStateToHistory, workflowStore, getAfterNodesInSameBranch, checkNestedParallelLimit])

  const handleNodeChange = useCallback((
    currentNodeId: string,
    nodeType: BlockEnum,
    sourceHandle: string,
    toolDefaultValue?: ToolDefaultValue,
  ) => {
    if (getNodesReadOnly())
      return

    const {
      getNodes,
      setNodes,
      edges,
      setEdges,
    } = store.getState()
    const nodes = getNodes()
    const currentNode = nodes.find(node => node.id === currentNodeId)!
    const connectedEdges = getConnectedEdges([currentNode], edges)
    const nodesWithSameType = nodes.filter(node => node.data.type === nodeType)
    const {
      newNode: newCurrentNode,
      newIterationStartNode,
      newLoopStartNode,
    } = generateNewNode({
      type: getNodeCustomTypeByNodeDataType(nodeType),
      data: {
        ...NODES_INITIAL_DATA[nodeType],
        title: nodesWithSameType.length > 0 ? `${t(`workflow.blocks.${nodeType}`)} ${nodesWithSameType.length + 1}` : t(`workflow.blocks.${nodeType}`),
        ...(toolDefaultValue || {}),
        _connectedSourceHandleIds: [],
        _connectedTargetHandleIds: [],
        selected: currentNode.data.selected,
        isInIteration: currentNode.data.isInIteration,
        isInLoop: currentNode.data.isInLoop,
        iteration_id: currentNode.data.iteration_id,
        loop_id: currentNode.data.loop_id,
      },
      position: {
        x: currentNode.position.x,
        y: currentNode.position.y,
      },
      parentId: currentNode.parentId,
      extent: currentNode.extent,
      zIndex: currentNode.zIndex,
    })
    const nodesConnectedSourceOrTargetHandleIdsMap = getNodesConnectedSourceOrTargetHandleIdsMap(
      [
        ...connectedEdges.map(edge => ({ type: 'remove', edge })),
      ],
      nodes,
    )
    const newNodes = produce(nodes, (draft) => {
      draft.forEach((node) => {
        node.data.selected = false

        if (nodesConnectedSourceOrTargetHandleIdsMap[node.id]) {
          node.data = {
            ...node.data,
            ...nodesConnectedSourceOrTargetHandleIdsMap[node.id],
          }
        }
      })
      const index = draft.findIndex(node => node.id === currentNodeId)

      draft.splice(index, 1, newCurrentNode)
      if (newIterationStartNode)
        draft.push(newIterationStartNode)
      if (newLoopStartNode)
        draft.push(newLoopStartNode)
    })
    setNodes(newNodes)
    const newEdges = produce(edges, (draft) => {
      const filtered = draft.filter(edge => !connectedEdges.find(connectedEdge => connectedEdge.id === edge.id))

      return filtered
    })
    setEdges(newEdges)
    handleSyncWorkflowDraft()

    saveStateToHistory(WorkflowHistoryEvent.NodeChange)
  }, [getNodesReadOnly, store, t, handleSyncWorkflowDraft, saveStateToHistory])

  const handleNodeCancelRunningStatus = useCallback(() => {
    const {
      getNodes,
      setNodes,
    } = store.getState()

    const nodes = getNodes()
    const newNodes = produce(nodes, (draft) => {
      draft.forEach((node) => {
        node.data._runningStatus = undefined
        node.data._waitingRun = false
      })
    })
    setNodes(newNodes)
  }, [store])

  const handleNodesCancelSelected = useCallback(() => {
    const {
      getNodes,
      setNodes,
    } = store.getState()

    const nodes = getNodes()
    const newNodes = produce(nodes, (draft) => {
      draft.forEach((node) => {
        node.data.selected = false
      })
    })
    setNodes(newNodes)
  }, [store])

  const handleNodeContextMenu = useCallback((e: MouseEvent, node: Node) => {
    if (node.type === CUSTOM_NOTE_NODE || node.type === CUSTOM_ITERATION_START_NODE)
      return

    if (node.type === CUSTOM_NOTE_NODE || node.type === CUSTOM_LOOP_START_NODE)
      return

    e.preventDefault()
    const container = document.querySelector('#workflow-container')
    const { x, y } = container!.getBoundingClientRect()
    workflowStore.setState({
      nodeMenu: {
        top: e.clientY - y,
        left: e.clientX - x,
        nodeId: node.id,
      },
    })
    handleNodeSelect(node.id)
  }, [workflowStore, handleNodeSelect])

  const handleNodesCopy = useCallback((nodeId?: string) => {
    if (getNodesReadOnly())
      return

    const { setClipboardElements } = workflowStore.getState()

    const {
      getNodes,
    } = store.getState()

    const nodes = getNodes()

    if (nodeId) {
      // If nodeId is provided, copy that specific node
      const nodeToCopy = nodes.find(node => node.id === nodeId && node.data.type !== BlockEnum.Start
        && node.type !== CUSTOM_ITERATION_START_NODE && node.type !== CUSTOM_LOOP_START_NODE && node.data.type !== BlockEnum.LoopEnd)
      if (nodeToCopy)
        setClipboardElements([nodeToCopy])
    }
    else {
      // If no nodeId is provided, fall back to the current behavior
      const bundledNodes = nodes.filter(node => node.data._isBundled && node.data.type !== BlockEnum.Start
        && !node.data.isInIteration && !node.data.isInLoop)

      if (bundledNodes.length) {
        setClipboardElements(bundledNodes)
        return
      }

      const selectedNode = nodes.find(node => node.data.selected && node.data.type !== BlockEnum.Start && node.data.type !== BlockEnum.LoopEnd)

      if (selectedNode)
        setClipboardElements([selectedNode])
    }
  }, [getNodesReadOnly, store, workflowStore])

  const handleNodesPaste = useCallback(() => {
    if (getNodesReadOnly())
      return

    const {
      clipboardElements,
      mousePosition,
    } = workflowStore.getState()

    const {
      getNodes,
      setNodes,
      edges,
      setEdges,
    } = store.getState()

    const nodesToPaste: Node[] = []
    const edgesToPaste: Edge[] = []
    const nodes = getNodes()

    if (clipboardElements.length) {
      const { x, y } = getTopLeftNodePosition(clipboardElements)
      const { screenToFlowPosition } = reactflow
      const currentPosition = screenToFlowPosition({ x: mousePosition.pageX, y: mousePosition.pageY })
      const offsetX = currentPosition.x - x
      const offsetY = currentPosition.y - y
      let idMapping: Record<string, string> = {}
      clipboardElements.forEach((nodeToPaste, index) => {
        const nodeType = nodeToPaste.data.type

        const {
          newNode,
          newIterationStartNode,
          newLoopStartNode,
        } = generateNewNode({
          type: nodeToPaste.type,
          data: {
            ...NODES_INITIAL_DATA[nodeType],
            ...nodeToPaste.data,
            selected: false,
            _isBundled: false,
            _connectedSourceHandleIds: [],
            _connectedTargetHandleIds: [],
            title: genNewNodeTitleFromOld(nodeToPaste.data.title),
          },
          position: {
            x: nodeToPaste.position.x + offsetX,
            y: nodeToPaste.position.y + offsetY,
          },
          extent: nodeToPaste.extent,
          zIndex: nodeToPaste.zIndex,
        })
        newNode.id = newNode.id + index
        // This new node is movable and can be placed anywhere
        let newChildren: Node[] = []
        if (nodeToPaste.data.type === BlockEnum.Iteration) {
          newIterationStartNode!.parentId = newNode.id;
          (newNode.data as IterationNodeType).start_node_id = newIterationStartNode!.id

          const oldIterationStartNode = nodes
            .find(n => n.parentId === nodeToPaste.id && n.type === CUSTOM_ITERATION_START_NODE)
          idMapping[oldIterationStartNode!.id] = newIterationStartNode!.id

          const { copyChildren, newIdMapping } = handleNodeIterationChildrenCopy(nodeToPaste.id, newNode.id, idMapping)
          newChildren = copyChildren
          idMapping = newIdMapping
          newChildren.forEach((child) => {
            newNode.data._children?.push({ nodeId: child.id, nodeType: child.data.type })
          })
          newChildren.push(newIterationStartNode!)
        }

        if (nodeToPaste.data.type === BlockEnum.Loop) {
          newLoopStartNode!.parentId = newNode.id;
          (newNode.data as LoopNodeType).start_node_id = newLoopStartNode!.id

          newChildren = handleNodeLoopChildrenCopy(nodeToPaste.id, newNode.id)
          newChildren.forEach((child) => {
            newNode.data._children?.push({ nodeId: child.id, nodeType: child.data.type })
          })
          newChildren.push(newLoopStartNode!)
        }

        nodesToPaste.push(newNode)

        if (newChildren.length)
          nodesToPaste.push(...newChildren)
      })

      edges.forEach((edge) => {
        const sourceId = idMapping[edge.source]
        const targetId = idMapping[edge.target]

        if (sourceId && targetId) {
          const newEdge: Edge = {
            ...edge,
            id: `${sourceId}-${edge.sourceHandle}-${targetId}-${edge.targetHandle}`,
            source: sourceId,
            target: targetId,
            data: {
              ...edge.data,
              _connectedNodeIsSelected: false,
            },
          }
          edgesToPaste.push(newEdge)
        }
      })

      setNodes([...nodes, ...nodesToPaste])
      setEdges([...edges, ...edgesToPaste])
      saveStateToHistory(WorkflowHistoryEvent.NodePaste)
      handleSyncWorkflowDraft()
    }
  }, [getNodesReadOnly, workflowStore, store, reactflow, saveStateToHistory, handleSyncWorkflowDraft, handleNodeIterationChildrenCopy, handleNodeLoopChildrenCopy])

  const handleNodesDuplicate = useCallback((nodeId?: string) => {
    if (getNodesReadOnly())
      return

    handleNodesCopy(nodeId)
    handleNodesPaste()
  }, [getNodesReadOnly, handleNodesCopy, handleNodesPaste])

  const handleNodesDelete = useCallback(() => {
    if (getNodesReadOnly())
      return

    const {
      getNodes,
      edges,
    } = store.getState()

    const nodes = getNodes()
    const bundledNodes = nodes.filter(node => node.data._isBundled && node.data.type !== BlockEnum.Start)

    if (bundledNodes.length) {
      bundledNodes.forEach(node => handleNodeDelete(node.id))

      return
    }

    const edgeSelected = edges.some(edge => edge.selected)
    if (edgeSelected)
      return

    const selectedNode = nodes.find(node => node.data.selected && node.data.type !== BlockEnum.Start)

    if (selectedNode)
      handleNodeDelete(selectedNode.id)
  }, [store, getNodesReadOnly, handleNodeDelete])

  const handleNodeResize = useCallback((nodeId: string, params: ResizeParamsWithDirection) => {
    if (getNodesReadOnly())
      return

    const {
      getNodes,
      setNodes,
    } = store.getState()
    const { x, y, width, height } = params

    const nodes = getNodes()
    const currentNode = nodes.find(n => n.id === nodeId)!
    const childrenNodes = nodes.filter(n => currentNode.data._children?.find((c: any) => c.nodeId === n.id))
    let rightNode: Node
    let bottomNode: Node

    childrenNodes.forEach((n) => {
      if (rightNode) {
        if (n.position.x + n.width! > rightNode.position.x + rightNode.width!)
          rightNode = n
      }
      else {
        rightNode = n
      }
      if (bottomNode) {
        if (n.position.y + n.height! > bottomNode.position.y + bottomNode.height!)
          bottomNode = n
      }
      else {
        bottomNode = n
      }
    })

    if (rightNode! && bottomNode!) {
      const parentNode = nodes.find(n => n.id === rightNode.parentId)
      const paddingMap = parentNode?.data.type === BlockEnum.Iteration ? ITERATION_PADDING : LOOP_PADDING

      if (width < rightNode!.position.x + rightNode.width! + paddingMap.right)
        return
      if (height < bottomNode.position.y + bottomNode.height! + paddingMap.bottom)
        return
    }
    const newNodes = produce(nodes, (draft) => {
      draft.forEach((n) => {
        if (n.id === nodeId) {
          n.data.width = width
          n.data.height = height
          n.width = width
          n.height = height
          n.position.x = x
          n.position.y = y
        }
      })
    })
    setNodes(newNodes)
    handleSyncWorkflowDraft()
    saveStateToHistory(WorkflowHistoryEvent.NodeResize)
  }, [getNodesReadOnly, store, handleSyncWorkflowDraft, saveStateToHistory])

  const handleNodeDisconnect = useCallback((nodeId: string) => {
    if (getNodesReadOnly())
      return

    const {
      getNodes,
      setNodes,
      edges,
      setEdges,
    } = store.getState()
    const nodes = getNodes()
    const currentNode = nodes.find(node => node.id === nodeId)!
    const connectedEdges = getConnectedEdges([currentNode], edges)
    const nodesConnectedSourceOrTargetHandleIdsMap = getNodesConnectedSourceOrTargetHandleIdsMap(
      connectedEdges.map(edge => ({ type: 'remove', edge })),
      nodes,
    )
    const newNodes = produce(nodes, (draft: Node[]) => {
      draft.forEach((node) => {
        if (nodesConnectedSourceOrTargetHandleIdsMap[node.id]) {
          node.data = {
            ...node.data,
            ...nodesConnectedSourceOrTargetHandleIdsMap[node.id],
          }
        }
      })
    })
    setNodes(newNodes)
    const newEdges = produce(edges, (draft) => {
      return draft.filter(edge => !connectedEdges.find(connectedEdge => connectedEdge.id === edge.id))
    })
    setEdges(newEdges)
    handleSyncWorkflowDraft()
    saveStateToHistory(WorkflowHistoryEvent.EdgeDelete)
  }, [store, getNodesReadOnly, handleSyncWorkflowDraft, saveStateToHistory])

  const handleHistoryBack = useCallback(() => {
    if (getNodesReadOnly() || getWorkflowReadOnly())
      return

    const { setEdges, setNodes } = store.getState()
    undo()

    const { edges, nodes } = workflowHistoryStore.getState()
    if (edges.length === 0 && nodes.length === 0)
      return

    setEdges(edges)
    setNodes(nodes)
  }, [store, undo, workflowHistoryStore, getNodesReadOnly, getWorkflowReadOnly])

  const handleHistoryForward = useCallback(() => {
    if (getNodesReadOnly() || getWorkflowReadOnly())
      return

    const { setEdges, setNodes } = store.getState()
    redo()

    const { edges, nodes } = workflowHistoryStore.getState()
    if (edges.length === 0 && nodes.length === 0)
      return

    setEdges(edges)
    setNodes(nodes)
  }, [redo, store, workflowHistoryStore, getNodesReadOnly, getWorkflowReadOnly])

  return {
    handleNodeDragStart,
    handleNodeDrag,
    handleNodeDragStop,
    handleNodeEnter,
    handleNodeLeave,
    handleNodeSelect,
    handleNodeClick,
    handleNodeConnect,
    handleNodeConnectStart,
    handleNodeConnectEnd,
    handleNodeDelete,
    handleNodeChange,
    handleNodeAdd,
    handleNodeCancelRunningStatus,
    handleNodesCancelSelected,
    handleNodeContextMenu,
    handleNodesCopy,
    handleNodesPaste,
    handleNodesDuplicate,
    handleNodesDelete,
    handleNodeResize,
    handleNodeDisconnect,
    handleHistoryBack,
    handleHistoryForward,
  }
}