@mui/x-data-grid/hooks/features/rows/useGridRows.js

The Community plan edition of the Data Grid components (MUI X).

import _extends from "@babel/runtime/helpers/esm/extends";
import * as React from 'react';
import { useGridApiMethod } from '../../utils/useGridApiMethod';
import { useGridLogger } from '../../utils/useGridLogger';
import { gridRowCountSelector, gridRowsLookupSelector, gridRowTreeSelector, gridRowGroupingNameSelector, gridRowTreeDepthsSelector, gridDataRowIdsSelector, gridRowsDataRowIdToIdLookupSelector, gridRowMaximumTreeDepthSelector } from './gridRowsSelector';
import { useTimeout } from '../../utils/useTimeout';
import { GridSignature, useGridApiEventHandler } from '../../utils/useGridApiEventHandler';
import { useGridVisibleRows } from '../../utils/useGridVisibleRows';
import { gridSortedRowIdsSelector } from '../sorting/gridSortingSelector';
import { gridFilteredRowsLookupSelector } from '../filter/gridFilterSelector';
import { getTreeNodeDescendants, createRowsInternalCache, getRowsStateFromCache, isAutoGeneratedRow, GRID_ROOT_GROUP_ID, GRID_ID_AUTOGENERATED, updateCacheWithNewRows, getTopLevelRowCount, getRowIdFromRowModel } from './gridRowsUtils';
import { useGridRegisterPipeApplier } from '../../core/pipeProcessing';
export const rowsStateInitializer = (state, props, apiRef) => {
  apiRef.current.caches.rows = createRowsInternalCache({
    rows: props.rows,
    getRowId: props.getRowId,
    loading: props.loading,
    rowCount: props.rowCount
  });
  return _extends({}, state, {
    rows: getRowsStateFromCache({
      apiRef,
      rowCountProp: props.rowCount,
      loadingProp: props.loading,
      previousTree: null,
      previousTreeDepths: null
    })
  });
};
export const useGridRows = (apiRef, props) => {
  if (process.env.NODE_ENV !== 'production') {
    try {
      // Freeze the `rows` prop so developers have a fast failure if they try to use Array.prototype.push().
      Object.freeze(props.rows);
    } catch (error) {
      // Sometimes, it's impossible to freeze, so we give up on it.
    }
  }
  const logger = useGridLogger(apiRef, 'useGridRows');
  const currentPage = useGridVisibleRows(apiRef, props);
  const lastUpdateMs = React.useRef(Date.now());
  const lastRowCount = React.useRef(props.rowCount);
  const timeout = useTimeout();
  const getRow = React.useCallback(id => {
    const model = gridRowsLookupSelector(apiRef)[id];
    if (model) {
      return model;
    }
    const node = apiRef.current.getRowNode(id);
    if (node && isAutoGeneratedRow(node)) {
      return {
        [GRID_ID_AUTOGENERATED]: id
      };
    }
    return null;
  }, [apiRef]);
  const getRowIdProp = props.getRowId;
  const getRowId = React.useCallback(row => {
    if (GRID_ID_AUTOGENERATED in row) {
      return row[GRID_ID_AUTOGENERATED];
    }
    if (getRowIdProp) {
      return getRowIdProp(row);
    }
    return row.id;
  }, [getRowIdProp]);
  const lookup = React.useMemo(() => currentPage.rows.reduce((acc, {
    id
  }, index) => {
    acc[id] = index;
    return acc;
  }, {}), [currentPage.rows]);
  const throttledRowsChange = React.useCallback(({
    cache,
    throttle
  }) => {
    const run = () => {
      lastUpdateMs.current = Date.now();
      apiRef.current.setState(state => _extends({}, state, {
        rows: getRowsStateFromCache({
          apiRef,
          rowCountProp: props.rowCount,
          loadingProp: props.loading,
          previousTree: gridRowTreeSelector(apiRef),
          previousTreeDepths: gridRowTreeDepthsSelector(apiRef)
        })
      }));
      apiRef.current.publishEvent('rowsSet');
      apiRef.current.forceUpdate();
    };
    timeout.clear();
    apiRef.current.caches.rows = cache;
    if (!throttle) {
      run();
      return;
    }
    const throttleRemainingTimeMs = props.throttleRowsMs - (Date.now() - lastUpdateMs.current);
    if (throttleRemainingTimeMs > 0) {
      timeout.start(throttleRemainingTimeMs, run);
      return;
    }
    run();
  }, [props.throttleRowsMs, props.rowCount, props.loading, apiRef, timeout]);

  /**
   * API METHODS
   */
  const setRows = React.useCallback(rows => {
    logger.debug(`Updating all rows, new length ${rows.length}`);
    const cache = createRowsInternalCache({
      rows,
      getRowId: props.getRowId,
      loading: props.loading,
      rowCount: props.rowCount
    });
    const prevCache = apiRef.current.caches.rows;
    cache.rowsBeforePartialUpdates = prevCache.rowsBeforePartialUpdates;
    throttledRowsChange({
      cache,
      throttle: true
    });
  }, [logger, props.getRowId, props.loading, props.rowCount, throttledRowsChange, apiRef]);
  const updateRows = React.useCallback(updates => {
    if (props.signature === GridSignature.DataGrid && updates.length > 1) {
      throw new Error(['MUI X: You cannot update several rows at once in `apiRef.current.updateRows` on the DataGrid.', 'You need to upgrade to DataGridPro or DataGridPremium component to unlock this feature.'].join('\n'));
    }
    const nonPinnedRowsUpdates = [];
    updates.forEach(update => {
      const id = getRowIdFromRowModel(update, props.getRowId, 'A row was provided without id when calling updateRows():');
      const rowNode = apiRef.current.getRowNode(id);
      if (rowNode?.type === 'pinnedRow') {
        // @ts-ignore because otherwise `release:build` doesn't work
        const pinnedRowsCache = apiRef.current.caches.pinnedRows;
        const prevModel = pinnedRowsCache.idLookup[id];
        if (prevModel) {
          pinnedRowsCache.idLookup[id] = _extends({}, prevModel, update);
        }
      } else {
        nonPinnedRowsUpdates.push(update);
      }
    });
    const cache = updateCacheWithNewRows({
      updates: nonPinnedRowsUpdates,
      getRowId: props.getRowId,
      previousCache: apiRef.current.caches.rows
    });
    throttledRowsChange({
      cache,
      throttle: true
    });
  }, [props.signature, props.getRowId, throttledRowsChange, apiRef]);
  const getRowModels = React.useCallback(() => {
    const dataRows = gridDataRowIdsSelector(apiRef);
    const idRowsLookup = gridRowsLookupSelector(apiRef);
    return new Map(dataRows.map(id => [id, idRowsLookup[id] ?? {}]));
  }, [apiRef]);
  const getRowsCount = React.useCallback(() => gridRowCountSelector(apiRef), [apiRef]);
  const getAllRowIds = React.useCallback(() => gridDataRowIdsSelector(apiRef), [apiRef]);
  const getRowIndexRelativeToVisibleRows = React.useCallback(id => lookup[id], [lookup]);
  const setRowChildrenExpansion = React.useCallback((id, isExpanded) => {
    const currentNode = apiRef.current.getRowNode(id);
    if (!currentNode) {
      throw new Error(`MUI X: No row with id #${id} found.`);
    }
    if (currentNode.type !== 'group') {
      throw new Error('MUI X: Only group nodes can be expanded or collapsed.');
    }
    const newNode = _extends({}, currentNode, {
      childrenExpanded: isExpanded
    });
    apiRef.current.setState(state => {
      return _extends({}, state, {
        rows: _extends({}, state.rows, {
          tree: _extends({}, state.rows.tree, {
            [id]: newNode
          })
        })
      });
    });
    apiRef.current.forceUpdate();
    apiRef.current.publishEvent('rowExpansionChange', newNode);
  }, [apiRef]);
  const getRowNode = React.useCallback(id => gridRowTreeSelector(apiRef)[id] ?? null, [apiRef]);
  const getRowGroupChildren = React.useCallback(({
    skipAutoGeneratedRows = true,
    groupId,
    applySorting,
    applyFiltering
  }) => {
    const tree = gridRowTreeSelector(apiRef);
    let children;
    if (applySorting) {
      const groupNode = tree[groupId];
      if (!groupNode) {
        return [];
      }
      const sortedRowIds = gridSortedRowIdsSelector(apiRef);
      children = [];
      const startIndex = sortedRowIds.findIndex(id => id === groupId) + 1;
      for (let index = startIndex; index < sortedRowIds.length && tree[sortedRowIds[index]].depth > groupNode.depth; index += 1) {
        const id = sortedRowIds[index];
        if (!skipAutoGeneratedRows || !isAutoGeneratedRow(tree[id])) {
          children.push(id);
        }
      }
    } else {
      children = getTreeNodeDescendants(tree, groupId, skipAutoGeneratedRows);
    }
    if (applyFiltering) {
      const filteredRowsLookup = gridFilteredRowsLookupSelector(apiRef);
      children = children.filter(childId => filteredRowsLookup[childId] !== false);
    }
    return children;
  }, [apiRef]);
  const setRowIndex = React.useCallback((rowId, targetIndex) => {
    const node = apiRef.current.getRowNode(rowId);
    if (!node) {
      throw new Error(`MUI X: No row with id #${rowId} found.`);
    }
    if (node.parent !== GRID_ROOT_GROUP_ID) {
      throw new Error(`MUI X: The row reordering do not support reordering of grouped rows yet.`);
    }
    if (node.type !== 'leaf') {
      throw new Error(`MUI X: The row reordering do not support reordering of footer or grouping rows.`);
    }
    apiRef.current.setState(state => {
      const group = gridRowTreeSelector(state, apiRef.current.instanceId)[GRID_ROOT_GROUP_ID];
      const allRows = group.children;
      const oldIndex = allRows.findIndex(row => row === rowId);
      if (oldIndex === -1 || oldIndex === targetIndex) {
        return state;
      }
      logger.debug(`Moving row ${rowId} to index ${targetIndex}`);
      const updatedRows = [...allRows];
      updatedRows.splice(targetIndex, 0, updatedRows.splice(oldIndex, 1)[0]);
      return _extends({}, state, {
        rows: _extends({}, state.rows, {
          tree: _extends({}, state.rows.tree, {
            [GRID_ROOT_GROUP_ID]: _extends({}, group, {
              children: updatedRows
            })
          })
        })
      });
    });
    apiRef.current.publishEvent('rowsSet');
  }, [apiRef, logger]);
  const replaceRows = React.useCallback((firstRowToRender, newRows) => {
    if (props.signature === GridSignature.DataGrid && newRows.length > 1) {
      throw new Error(['MUI X: You cannot replace rows using `apiRef.current.unstable_replaceRows` on the DataGrid.', 'You need to upgrade to DataGridPro or DataGridPremium component to unlock this feature.'].join('\n'));
    }
    if (newRows.length === 0) {
      return;
    }
    const treeDepth = gridRowMaximumTreeDepthSelector(apiRef);
    if (treeDepth > 1) {
      throw new Error('`apiRef.current.unstable_replaceRows` is not compatible with tree data and row grouping');
    }
    const tree = _extends({}, gridRowTreeSelector(apiRef));
    const dataRowIdToModelLookup = _extends({}, gridRowsLookupSelector(apiRef));
    const dataRowIdToIdLookup = _extends({}, gridRowsDataRowIdToIdLookupSelector(apiRef));
    const rootGroup = tree[GRID_ROOT_GROUP_ID];
    const rootGroupChildren = [...rootGroup.children];
    const seenIds = new Set();
    for (let i = 0; i < newRows.length; i += 1) {
      const rowModel = newRows[i];
      const rowId = getRowIdFromRowModel(rowModel, props.getRowId, 'A row was provided without id when calling replaceRows().');
      const [removedRowId] = rootGroupChildren.splice(firstRowToRender + i, 1, rowId);
      if (!seenIds.has(removedRowId)) {
        delete dataRowIdToModelLookup[removedRowId];
        delete dataRowIdToIdLookup[removedRowId];
        delete tree[removedRowId];
      }
      const rowTreeNodeConfig = {
        id: rowId,
        depth: 0,
        parent: GRID_ROOT_GROUP_ID,
        type: 'leaf',
        groupingKey: null
      };
      dataRowIdToModelLookup[rowId] = rowModel;
      dataRowIdToIdLookup[rowId] = rowId;
      tree[rowId] = rowTreeNodeConfig;
      seenIds.add(rowId);
    }
    tree[GRID_ROOT_GROUP_ID] = _extends({}, rootGroup, {
      children: rootGroupChildren
    });

    // Removes potential remaining skeleton rows from the dataRowIds.
    const dataRowIds = rootGroupChildren.filter(childId => tree[childId]?.type === 'leaf');
    apiRef.current.caches.rows.dataRowIdToModelLookup = dataRowIdToModelLookup;
    apiRef.current.caches.rows.dataRowIdToIdLookup = dataRowIdToIdLookup;
    apiRef.current.setState(state => _extends({}, state, {
      rows: _extends({}, state.rows, {
        dataRowIdToModelLookup,
        dataRowIdToIdLookup,
        dataRowIds,
        tree
      })
    }));
    apiRef.current.publishEvent('rowsSet');
  }, [apiRef, props.signature, props.getRowId]);
  const rowApi = {
    getRow,
    getRowId,
    getRowModels,
    getRowsCount,
    getAllRowIds,
    setRows,
    updateRows,
    getRowNode,
    getRowIndexRelativeToVisibleRows,
    unstable_replaceRows: replaceRows
  };
  const rowProApi = {
    setRowIndex,
    setRowChildrenExpansion,
    getRowGroupChildren
  };

  /**
   * EVENTS
   */
  const groupRows = React.useCallback(() => {
    logger.info(`Row grouping pre-processing have changed, regenerating the row tree`);
    let cache;
    if (apiRef.current.caches.rows.rowsBeforePartialUpdates === props.rows) {
      // The `props.rows` did not change since the last row grouping
      // We can use the current rows cache which contains the partial updates done recently.
      cache = _extends({}, apiRef.current.caches.rows, {
        updates: {
          type: 'full',
          rows: gridDataRowIdsSelector(apiRef)
        }
      });
    } else {
      // The `props.rows` has changed since the last row grouping
      // We must use the new `props.rows` on the new grouping
      // This occurs because this event is triggered before the `useEffect` on the rows when both the grouping pre-processing and the rows changes on the same render
      cache = createRowsInternalCache({
        rows: props.rows,
        getRowId: props.getRowId,
        loading: props.loading,
        rowCount: props.rowCount
      });
    }
    throttledRowsChange({
      cache,
      throttle: false
    });
  }, [logger, apiRef, props.rows, props.getRowId, props.loading, props.rowCount, throttledRowsChange]);
  const handleStrategyProcessorChange = React.useCallback(methodName => {
    if (methodName === 'rowTreeCreation') {
      groupRows();
    }
  }, [groupRows]);
  const handleStrategyActivityChange = React.useCallback(() => {
    // `rowTreeCreation` is the only processor ran when `strategyAvailabilityChange` is fired.
    // All the other processors listen to `rowsSet` which will be published by the `groupRows` method below.
    if (apiRef.current.getActiveStrategy('rowTree') !== gridRowGroupingNameSelector(apiRef)) {
      groupRows();
    }
  }, [apiRef, groupRows]);
  useGridApiEventHandler(apiRef, 'activeStrategyProcessorChange', handleStrategyProcessorChange);
  useGridApiEventHandler(apiRef, 'strategyAvailabilityChange', handleStrategyActivityChange);

  /**
   * APPLIERS
   */
  const applyHydrateRowsProcessor = React.useCallback(() => {
    apiRef.current.setState(state => {
      const response = apiRef.current.unstable_applyPipeProcessors('hydrateRows', {
        tree: gridRowTreeSelector(state, apiRef.current.instanceId),
        treeDepths: gridRowTreeDepthsSelector(state, apiRef.current.instanceId),
        dataRowIds: gridDataRowIdsSelector(state, apiRef.current.instanceId),
        dataRowIdToModelLookup: gridRowsLookupSelector(state, apiRef.current.instanceId),
        dataRowIdToIdLookup: gridRowsDataRowIdToIdLookupSelector(state, apiRef.current.instanceId)
      });
      return _extends({}, state, {
        rows: _extends({}, state.rows, response, {
          totalTopLevelRowCount: getTopLevelRowCount({
            tree: response.tree,
            rowCountProp: props.rowCount
          })
        })
      });
    });
    apiRef.current.publishEvent('rowsSet');
    apiRef.current.forceUpdate();
  }, [apiRef, props.rowCount]);
  useGridRegisterPipeApplier(apiRef, 'hydrateRows', applyHydrateRowsProcessor);
  useGridApiMethod(apiRef, rowApi, 'public');
  useGridApiMethod(apiRef, rowProApi, props.signature === GridSignature.DataGrid ? 'private' : 'public');

  // The effect do not track any value defined synchronously during the 1st render by hooks called after `useGridRows`
  // As a consequence, the state generated by the 1st run of this useEffect will always be equal to the initialization one
  const isFirstRender = React.useRef(true);
  React.useEffect(() => {
    if (isFirstRender.current) {
      isFirstRender.current = false;
      return;
    }
    let isRowCountPropUpdated = false;
    if (props.rowCount !== lastRowCount.current) {
      isRowCountPropUpdated = true;
      lastRowCount.current = props.rowCount;
    }
    const areNewRowsAlreadyInState = apiRef.current.caches.rows.rowsBeforePartialUpdates === props.rows;
    const isNewLoadingAlreadyInState = apiRef.current.caches.rows.loadingPropBeforePartialUpdates === props.loading;
    const isNewRowCountAlreadyInState = apiRef.current.caches.rows.rowCountPropBeforePartialUpdates === props.rowCount;

    // The new rows have already been applied (most likely in the `'rowGroupsPreProcessingChange'` listener)
    if (areNewRowsAlreadyInState) {
      // If the loading prop has changed, we need to update its value in the state because it won't be done by `throttledRowsChange`
      if (!isNewLoadingAlreadyInState) {
        apiRef.current.setState(state => _extends({}, state, {
          rows: _extends({}, state.rows, {
            loading: props.loading
          })
        }));
        apiRef.current.caches.rows.loadingPropBeforePartialUpdates = props.loading;
        apiRef.current.forceUpdate();
      }
      if (!isNewRowCountAlreadyInState) {
        apiRef.current.setState(state => _extends({}, state, {
          rows: _extends({}, state.rows, {
            totalRowCount: Math.max(props.rowCount || 0, state.rows.totalRowCount),
            totalTopLevelRowCount: Math.max(props.rowCount || 0, state.rows.totalTopLevelRowCount)
          })
        }));
        apiRef.current.caches.rows.rowCountPropBeforePartialUpdates = props.rowCount;
        apiRef.current.forceUpdate();
      }
      if (!isRowCountPropUpdated) {
        return;
      }
    }
    logger.debug(`Updating all rows, new length ${props.rows.length}`);
    throttledRowsChange({
      cache: createRowsInternalCache({
        rows: props.rows,
        getRowId: props.getRowId,
        loading: props.loading,
        rowCount: props.rowCount
      }),
      throttle: false
    });
  }, [props.rows, props.rowCount, props.getRowId, props.loading, logger, throttledRowsChange, apiRef]);
};