react-window-reversed/dist/index.cjs.js

React components for efficiently rendering large, scrollable lists and tabular data

'use strict';

Object.defineProperty(exports, '__esModule', { value: true });

function _interopDefault (ex) { return (ex && (typeof ex === 'object') && 'default' in ex) ? ex['default'] : ex; }

var _extends = _interopDefault(require('@babel/runtime/helpers/extends'));
var _inheritsLoose = _interopDefault(require('@babel/runtime/helpers/inheritsLoose'));
var _assertThisInitialized = _interopDefault(require('@babel/runtime/helpers/assertThisInitialized'));
var memoizeOne = _interopDefault(require('memoize-one'));
var react = require('react');

var IS_SCROLLING_DEBOUNCE_INTERVAL = 150;

var defaultItemKey = function defaultItemKey(_ref) {
  var columnIndex = _ref.columnIndex,
      rowIndex = _ref.rowIndex;
  return rowIndex + ":" + columnIndex;
};

function createGridComponent(_ref2) {
  var _class, _temp;

  var getColumnOffset = _ref2.getColumnOffset,
      getColumnStartIndexForOffset = _ref2.getColumnStartIndexForOffset,
      getColumnStopIndexForStartIndex = _ref2.getColumnStopIndexForStartIndex,
      getColumnWidth = _ref2.getColumnWidth,
      getEstimatedTotalHeight = _ref2.getEstimatedTotalHeight,
      getEstimatedTotalWidth = _ref2.getEstimatedTotalWidth,
      getOffsetForColumnAndAlignment = _ref2.getOffsetForColumnAndAlignment,
      getOffsetForRowAndAlignment = _ref2.getOffsetForRowAndAlignment,
      getRowHeight = _ref2.getRowHeight,
      getRowOffset = _ref2.getRowOffset,
      getRowStartIndexForOffset = _ref2.getRowStartIndexForOffset,
      getRowStopIndexForStartIndex = _ref2.getRowStopIndexForStartIndex,
      initInstanceProps = _ref2.initInstanceProps,
      shouldResetStyleCacheOnItemSizeChange = _ref2.shouldResetStyleCacheOnItemSizeChange,
      validateProps = _ref2.validateProps;
  return _temp = _class =
  /*#__PURE__*/
  function (_PureComponent) {
    _inheritsLoose(Grid, _PureComponent);

    // Always use explicit constructor for React components.
    // It produces less code after transpilation. (#26)
    // eslint-disable-next-line no-useless-constructor
    function Grid(props) {
      var _this;

      _this = _PureComponent.call(this, props) || this;
      _this._instanceProps = initInstanceProps(_this.props, _assertThisInitialized(_assertThisInitialized(_this)));
      _this._resetIsScrollingTimeoutId = null;
      _this._outerRef = void 0;
      _this.state = {
        isScrolling: false,
        horizontalScrollDirection: 'forward',
        scrollLeft: typeof _this.props.initialScrollLeft === 'number' ? _this.props.initialScrollLeft : 0,
        scrollTop: typeof _this.props.initialScrollTop === 'number' ? _this.props.initialScrollTop : 0,
        scrollUpdateWasRequested: false,
        verticalScrollDirection: 'forward'
      };
      _this._callOnItemsRendered = void 0;
      _this._callOnItemsRendered = memoizeOne(function (overscanColumnStartIndex, overscanColumnStopIndex, overscanRowStartIndex, overscanRowStopIndex, visibleColumnStartIndex, visibleColumnStopIndex, visibleRowStartIndex, visibleRowStopIndex) {
        return _this.props.onItemsRendered({
          overscanColumnStartIndex: overscanColumnStartIndex,
          overscanColumnStopIndex: overscanColumnStopIndex,
          overscanRowStartIndex: overscanRowStartIndex,
          overscanRowStopIndex: overscanRowStopIndex,
          visibleColumnStartIndex: visibleColumnStartIndex,
          visibleColumnStopIndex: visibleColumnStopIndex,
          visibleRowStartIndex: visibleRowStartIndex,
          visibleRowStopIndex: visibleRowStopIndex
        });
      });
      _this._callOnScroll = void 0;
      _this._callOnScroll = memoizeOne(function (scrollLeft, scrollTop, horizontalScrollDirection, verticalScrollDirection, scrollUpdateWasRequested) {
        return _this.props.onScroll({
          horizontalScrollDirection: horizontalScrollDirection,
          scrollLeft: scrollLeft,
          scrollTop: scrollTop,
          verticalScrollDirection: verticalScrollDirection,
          scrollUpdateWasRequested: scrollUpdateWasRequested
        });
      });
      _this._getItemStyle = void 0;

      _this._getItemStyle = function (rowIndex, columnIndex) {
        var key = rowIndex + ":" + columnIndex;

        var itemStyleCache = _this._getItemStyleCache(shouldResetStyleCacheOnItemSizeChange && _this.props.columnWidth, shouldResetStyleCacheOnItemSizeChange && _this.props.rowHeight);

        var style;

        if (itemStyleCache.hasOwnProperty(key)) {
          style = itemStyleCache[key];
        } else {
          itemStyleCache[key] = style = {
            position: 'absolute',
            left: getColumnOffset(_this.props, columnIndex, _this._instanceProps),
            top: getRowOffset(_this.props, rowIndex, _this._instanceProps),
            height: getRowHeight(_this.props, rowIndex, _this._instanceProps),
            width: getColumnWidth(_this.props, columnIndex, _this._instanceProps)
          };
        }

        return style;
      };

      _this._getItemStyleCache = void 0;
      _this._getItemStyleCache = memoizeOne(function (_, __) {
        return {};
      });

      _this._onScroll = function (event) {
        var _event$currentTarget = event.currentTarget,
            scrollLeft = _event$currentTarget.scrollLeft,
            scrollTop = _event$currentTarget.scrollTop;

        _this.setState(function (prevState) {
          if (prevState.scrollLeft === scrollLeft && prevState.scrollTop === scrollTop) {
            // Scroll position may have been updated by cDM/cDU,
            // In which case we don't need to trigger another render,
            // And we don't want to update state.isScrolling.
            return null;
          }

          return {
            isScrolling: true,
            horizontalScrollDirection: prevState.scrollLeft < scrollLeft ? 'forward' : 'backward',
            scrollLeft: scrollLeft,
            scrollTop: scrollTop,
            verticalScrollDirection: prevState.scrollTop < scrollTop ? 'forward' : 'backward',
            scrollUpdateWasRequested: false
          };
        }, _this._resetIsScrollingDebounced);
      };

      _this._outerRefSetter = function (ref) {
        var outerRef = _this.props.outerRef;
        _this._outerRef = ref;

        if (typeof outerRef === 'function') {
          outerRef(ref);
        } else if (outerRef != null && typeof outerRef === 'object' && outerRef.hasOwnProperty('current')) {
          outerRef.current = ref;
        }
      };

      _this._resetIsScrollingDebounced = function () {
        if (_this._resetIsScrollingTimeoutId !== null) {
          clearTimeout(_this._resetIsScrollingTimeoutId);
        }

        _this._resetIsScrollingTimeoutId = setTimeout(_this._resetIsScrolling, IS_SCROLLING_DEBOUNCE_INTERVAL);
      };

      _this._resetIsScrollingDebounced = function () {
        if (_this._resetIsScrollingTimeoutId !== null) {
          clearTimeout(_this._resetIsScrollingTimeoutId);
        }

        _this._resetIsScrollingTimeoutId = setTimeout(_this._resetIsScrolling, IS_SCROLLING_DEBOUNCE_INTERVAL);
      };

      _this._resetIsScrolling = function () {
        _this._resetIsScrollingTimeoutId = null;

        _this.setState({
          isScrolling: false
        }, function () {
          // Clear style cache after state update has been committed.
          // This way we don't break pure sCU for items that don't use isScrolling param.
          _this._getItemStyleCache(-1);
        });
      };

      return _this;
    }

    Grid.getDerivedStateFromProps = function getDerivedStateFromProps(nextProps, prevState) {
      validateSharedProps(nextProps);
      validateProps(nextProps);
      return null;
    };

    var _proto = Grid.prototype;

    _proto.scrollTo = function scrollTo(_ref3) {
      var scrollLeft = _ref3.scrollLeft,
          scrollTop = _ref3.scrollTop;
      this.setState(function (prevState) {
        if (scrollLeft === undefined) {
          scrollLeft = prevState.scrollLeft;
        }

        if (scrollTop === undefined) {
          scrollTop = prevState.scrollTop;
        }

        return {
          horizontalScrollDirection: prevState.scrollLeft < scrollLeft ? 'forward' : 'backward',
          scrollLeft: scrollLeft,
          scrollTop: scrollTop,
          scrollUpdateWasRequested: true,
          verticalScrollDirection: prevState.scrollTop < scrollTop ? 'forward' : 'backward'
        };
      }, this._resetIsScrollingDebounced);
    };

    _proto.scrollToItem = function scrollToItem(_ref4) {
      var _ref4$align = _ref4.align,
          align = _ref4$align === void 0 ? 'auto' : _ref4$align,
          columnIndex = _ref4.columnIndex,
          rowIndex = _ref4.rowIndex;
      var _this$state = this.state,
          scrollLeft = _this$state.scrollLeft,
          scrollTop = _this$state.scrollTop;
      this.scrollTo({
        scrollLeft: getOffsetForColumnAndAlignment(this.props, columnIndex, align, scrollLeft, this._instanceProps),
        scrollTop: getOffsetForRowAndAlignment(this.props, rowIndex, align, scrollTop, this._instanceProps)
      });
    };

    _proto.componentDidMount = function componentDidMount() {
      var _this$props = this.props,
          initialScrollLeft = _this$props.initialScrollLeft,
          initialScrollTop = _this$props.initialScrollTop;

      if (typeof initialScrollLeft === 'number' && this._outerRef != null) {
        this._outerRef.scrollLeft = initialScrollLeft;
      }

      if (typeof initialScrollTop === 'number' && this._outerRef != null) {
        this._outerRef.scrollTop = initialScrollTop;
      }

      this._callPropsCallbacks();
    };

    _proto.componentDidUpdate = function componentDidUpdate() {
      var _this$state2 = this.state,
          scrollLeft = _this$state2.scrollLeft,
          scrollTop = _this$state2.scrollTop,
          scrollUpdateWasRequested = _this$state2.scrollUpdateWasRequested;

      if (scrollUpdateWasRequested && this._outerRef !== null) {
        this._outerRef.scrollLeft = scrollLeft;
        this._outerRef.scrollTop = scrollTop;
      }

      this._callPropsCallbacks();
    };

    _proto.componentWillUnmount = function componentWillUnmount() {
      if (this._resetIsScrollingTimeoutId !== null) {
        clearTimeout(this._resetIsScrollingTimeoutId);
      }
    };

    _proto.render = function render() {
      var _this$props2 = this.props,
          children = _this$props2.children,
          className = _this$props2.className,
          columnCount = _this$props2.columnCount,
          height = _this$props2.height,
          innerRef = _this$props2.innerRef,
          innerTagName = _this$props2.innerTagName,
          itemData = _this$props2.itemData,
          _this$props2$itemKey = _this$props2.itemKey,
          itemKey = _this$props2$itemKey === void 0 ? defaultItemKey : _this$props2$itemKey,
          outerTagName = _this$props2.outerTagName,
          rowCount = _this$props2.rowCount,
          style = _this$props2.style,
          useIsScrolling = _this$props2.useIsScrolling,
          width = _this$props2.width;
      var isScrolling = this.state.isScrolling;

      var _this$_getHorizontalR = this._getHorizontalRangeToRender(),
          columnStartIndex = _this$_getHorizontalR[0],
          columnStopIndex = _this$_getHorizontalR[1];

      var _this$_getVerticalRan = this._getVerticalRangeToRender(),
          rowStartIndex = _this$_getVerticalRan[0],
          rowStopIndex = _this$_getVerticalRan[1];

      var items = [];

      if (columnCount > 0 && rowCount) {
        for (var _rowIndex = rowStartIndex; _rowIndex <= rowStopIndex; _rowIndex++) {
          for (var _columnIndex = columnStartIndex; _columnIndex <= columnStopIndex; _columnIndex++) {
            items.push(react.createElement(children, {
              columnIndex: _columnIndex,
              data: itemData,
              isScrolling: useIsScrolling ? isScrolling : undefined,
              key: itemKey({
                columnIndex: _columnIndex,
                rowIndex: _rowIndex
              }),
              rowIndex: _rowIndex,
              style: this._getItemStyle(_rowIndex, _columnIndex)
            }));
          }
        }
      } // Read this value AFTER items have been created,
      // So their actual sizes (if variable) are taken into consideration.


      var estimatedTotalHeight = getEstimatedTotalHeight(this.props, this._instanceProps);
      var estimatedTotalWidth = getEstimatedTotalWidth(this.props, this._instanceProps);
      return react.createElement(outerTagName, {
        className: className,
        onScroll: this._onScroll,
        ref: this._outerRefSetter,
        style: _extends({
          position: 'relative',
          height: height,
          width: width,
          overflow: 'auto',
          WebkitOverflowScrolling: 'touch',
          willChange: 'transform'
        }, style)
      }, react.createElement(innerTagName, {
        children: items,
        ref: innerRef,
        style: {
          height: estimatedTotalHeight,
          pointerEvents: isScrolling ? 'none' : '',
          width: estimatedTotalWidth
        }
      }));
    };

    _proto._callPropsCallbacks = function _callPropsCallbacks() {
      var _this$props3 = this.props,
          columnCount = _this$props3.columnCount,
          onItemsRendered = _this$props3.onItemsRendered,
          onScroll = _this$props3.onScroll,
          rowCount = _this$props3.rowCount;

      if (typeof onItemsRendered === 'function') {
        if (columnCount > 0 && rowCount > 0) {
          var _this$_getHorizontalR2 = this._getHorizontalRangeToRender(),
              _overscanColumnStartIndex = _this$_getHorizontalR2[0],
              _overscanColumnStopIndex = _this$_getHorizontalR2[1],
              _visibleColumnStartIndex = _this$_getHorizontalR2[2],
              _visibleColumnStopIndex = _this$_getHorizontalR2[3];

          var _this$_getVerticalRan2 = this._getVerticalRangeToRender(),
              _overscanRowStartIndex = _this$_getVerticalRan2[0],
              _overscanRowStopIndex = _this$_getVerticalRan2[1],
              _visibleRowStartIndex = _this$_getVerticalRan2[2],
              _visibleRowStopIndex = _this$_getVerticalRan2[3];

          this._callOnItemsRendered(_overscanColumnStartIndex, _overscanColumnStopIndex, _overscanRowStartIndex, _overscanRowStopIndex, _visibleColumnStartIndex, _visibleColumnStopIndex, _visibleRowStartIndex, _visibleRowStopIndex);
        }
      }

      if (typeof onScroll === 'function') {
        var _this$state3 = this.state,
            _horizontalScrollDirection = _this$state3.horizontalScrollDirection,
            _scrollLeft = _this$state3.scrollLeft,
            _scrollTop = _this$state3.scrollTop,
            _scrollUpdateWasRequested = _this$state3.scrollUpdateWasRequested,
            _verticalScrollDirection = _this$state3.verticalScrollDirection;

        this._callOnScroll(_scrollLeft, _scrollTop, _horizontalScrollDirection, _verticalScrollDirection, _scrollUpdateWasRequested);
      }
    }; // Lazily create and cache item styles while scrolling,
    // So that pure component sCU will prevent re-renders.
    // We maintain this cache, and pass a style prop rather than index,
    // So that List can clear cached styles and force item re-render if necessary.


    _proto._getHorizontalRangeToRender = function _getHorizontalRangeToRender() {
      var _this$props4 = this.props,
          columnCount = _this$props4.columnCount,
          overscanCount = _this$props4.overscanCount,
          rowCount = _this$props4.rowCount;
      var _this$state4 = this.state,
          horizontalScrollDirection = _this$state4.horizontalScrollDirection,
          scrollLeft = _this$state4.scrollLeft;

      if (columnCount === 0 || rowCount === 0) {
        return [0, 0, 0, 0];
      }

      var startIndex = getColumnStartIndexForOffset(this.props, scrollLeft, this._instanceProps);
      var stopIndex = getColumnStopIndexForStartIndex(this.props, startIndex, scrollLeft, this._instanceProps); // Overscan by one item in each direction so that tab/focus works.
      // If there isn't at least one extra item, tab loops back around.

      var overscanBackward = horizontalScrollDirection === 'backward' ? Math.max(1, overscanCount) : 1;
      var overscanForward = horizontalScrollDirection === 'forward' ? Math.max(1, overscanCount) : 1;
      return [Math.max(0, startIndex - overscanBackward), Math.max(0, Math.min(columnCount - 1, stopIndex + overscanForward)), startIndex, stopIndex];
    };

    _proto._getVerticalRangeToRender = function _getVerticalRangeToRender() {
      var _this$props5 = this.props,
          columnCount = _this$props5.columnCount,
          rowCount = _this$props5.rowCount,
          overscanCount = _this$props5.overscanCount;
      var _this$state5 = this.state,
          verticalScrollDirection = _this$state5.verticalScrollDirection,
          scrollTop = _this$state5.scrollTop;

      if (columnCount === 0 || rowCount === 0) {
        return [0, 0, 0, 0];
      }

      var startIndex = getRowStartIndexForOffset(this.props, scrollTop, this._instanceProps);
      var stopIndex = getRowStopIndexForStartIndex(this.props, startIndex, scrollTop, this._instanceProps); // Overscan by one item in each direction so that tab/focus works.
      // If there isn't at least one extra item, tab loops back around.

      var overscanBackward = verticalScrollDirection === 'backward' ? Math.max(1, overscanCount) : 1;
      var overscanForward = verticalScrollDirection === 'forward' ? Math.max(1, overscanCount) : 1;
      return [Math.max(0, startIndex - overscanBackward), Math.max(0, Math.min(rowCount - 1, stopIndex + overscanForward)), startIndex, stopIndex];
    };

    return Grid;
  }(react.PureComponent), _class.defaultProps = {
    innerTagName: 'div',
    itemData: undefined,
    outerTagName: 'div',
    overscanCount: 1,
    useIsScrolling: false
  }, _temp;
}

var validateSharedProps = function validateSharedProps(_ref5) {
  var children = _ref5.children,
      height = _ref5.height,
      width = _ref5.width;

  if (process.env.NODE_ENV !== 'production') {
    if (children == null) {
      throw Error('An invalid "children" prop has been specified. ' + 'Value should be a React component. ' + ("\"" + (children === null ? 'null' : typeof children) + "\" was specified."));
    }

    if (typeof width !== 'number') {
      throw Error('An invalid "width" prop has been specified. ' + 'Grids must specify a number for width. ' + ("\"" + (width === null ? 'null' : typeof width) + "\" was specified."));
    }

    if (typeof height !== 'number') {
      throw Error('An invalid "height" prop has been specified. ' + 'Grids must specify a number for height. ' + ("\"" + (height === null ? 'null' : typeof height) + "\" was specified."));
    }
  }
};

var DEFAULT_ESTIMATED_ITEM_SIZE = 50;

var getEstimatedTotalHeight = function getEstimatedTotalHeight(_ref, _ref2) {
  var rowCount = _ref.rowCount;
  var rowMetadataMap = _ref2.rowMetadataMap,
      estimatedRowHeight = _ref2.estimatedRowHeight,
      lastMeasuredRowIndex = _ref2.lastMeasuredRowIndex;
  var totalSizeOfMeasuredRows = 0;

  if (lastMeasuredRowIndex >= 0) {
    var itemMetadata = rowMetadataMap[lastMeasuredRowIndex];
    totalSizeOfMeasuredRows = itemMetadata.offset + itemMetadata.size;
  }

  var numUnmeasuredItems = rowCount - lastMeasuredRowIndex - 1;
  var totalSizeOfUnmeasuredItems = numUnmeasuredItems * estimatedRowHeight;
  return totalSizeOfMeasuredRows + totalSizeOfUnmeasuredItems;
};

var getEstimatedTotalWidth = function getEstimatedTotalWidth(_ref3, _ref4) {
  var columnCount = _ref3.columnCount;
  var columnMetadataMap = _ref4.columnMetadataMap,
      estimatedColumnWidth = _ref4.estimatedColumnWidth,
      lastMeasuredColumnIndex = _ref4.lastMeasuredColumnIndex;
  var totalSizeOfMeasuredRows = 0;

  if (lastMeasuredColumnIndex >= 0) {
    var itemMetadata = columnMetadataMap[lastMeasuredColumnIndex];
    totalSizeOfMeasuredRows = itemMetadata.offset + itemMetadata.size;
  }

  var numUnmeasuredItems = columnCount - lastMeasuredColumnIndex - 1;
  var totalSizeOfUnmeasuredItems = numUnmeasuredItems * estimatedColumnWidth;
  return totalSizeOfMeasuredRows + totalSizeOfUnmeasuredItems;
};

var getItemMetadata = function getItemMetadata(itemType, props, index, instanceProps) {
  var itemMetadataMap, itemSize, lastMeasuredIndex;

  if (itemType === 'column') {
    itemMetadataMap = instanceProps.columnMetadataMap;
    itemSize = props.columnWidth;
    lastMeasuredIndex = instanceProps.lastMeasuredColumnIndex;
  } else {
    itemMetadataMap = instanceProps.rowMetadataMap;
    itemSize = props.rowHeight;
    lastMeasuredIndex = instanceProps.lastMeasuredRowIndex;
  }

  if (index > lastMeasuredIndex) {
    var offset = 0;

    if (lastMeasuredIndex >= 0) {
      var itemMetadata = itemMetadataMap[lastMeasuredIndex];
      offset = itemMetadata.offset + itemMetadata.size;
    }

    for (var i = lastMeasuredIndex + 1; i <= index; i++) {
      var size = itemSize(i);
      itemMetadataMap[i] = {
        offset: offset,
        size: size
      };
      offset += size;
    }

    if (itemType === 'column') {
      instanceProps.lastMeasuredColumnIndex = index;
    } else {
      instanceProps.lastMeasuredRowIndex = index;
    }
  }

  return itemMetadataMap[index];
};

var findNearestItem = function findNearestItem(itemType, props, instanceProps, offset) {
  var itemMetadataMap, lastMeasuredIndex;

  if (itemType === 'column') {
    itemMetadataMap = instanceProps.columnMetadataMap;
    lastMeasuredIndex = instanceProps.lastMeasuredColumnIndex;
  } else {
    itemMetadataMap = instanceProps.rowMetadataMap;
    lastMeasuredIndex = instanceProps.lastMeasuredRowIndex;
  }

  var lastMeasuredItemOffset = lastMeasuredIndex > 0 ? itemMetadataMap[lastMeasuredIndex].offset : 0;

  if (lastMeasuredItemOffset >= offset) {
    // If we've already measured items within this range just use a binary search as it's faster.
    return findNearestItemBinarySearch(itemType, props, instanceProps, lastMeasuredIndex, 0, offset);
  } else {
    // If we haven't yet measured this high, fallback to an exponential search with an inner binary search.
    // The exponential search avoids pre-computing sizes for the full set of items as a binary search would.
    // The overall complexity for this approach is O(log n).
    return findNearestItemExponentialSearch(itemType, props, instanceProps, Math.max(0, lastMeasuredIndex), offset);
  }
};

var findNearestItemBinarySearch = function findNearestItemBinarySearch(itemType, props, instanceProps, high, low, offset) {
  while (low <= high) {
    var middle = low + Math.floor((high - low) / 2);
    var currentOffset = getItemMetadata(itemType, props, middle, instanceProps).offset;

    if (currentOffset === offset) {
      return middle;
    } else if (currentOffset < offset) {
      low = middle + 1;
    } else if (currentOffset > offset) {
      high = middle - 1;
    }
  }

  if (low > 0) {
    return low - 1;
  } else {
    return 0;
  }
};

var findNearestItemExponentialSearch = function findNearestItemExponentialSearch(itemType, props, instanceProps, index, offset) {
  var itemCount = itemType === 'column' ? props.columnCount : props.rowCount;
  var interval = 1;

  while (index < itemCount && getItemMetadata(itemType, props, index, instanceProps).offset < offset) {
    index += interval;
    interval *= 2;
  }

  return findNearestItemBinarySearch(itemType, props, instanceProps, Math.min(index, itemCount - 1), Math.floor(index / 2), offset);
};

var getOffsetForIndexAndAlignment = function getOffsetForIndexAndAlignment(itemType, props, index, align, scrollOffset, instanceProps) {
  var size = itemType === 'column' ? props.width : props.height;
  var itemMetadata = getItemMetadata(itemType, props, index, instanceProps); // Get estimated total size after ItemMetadata is computed,
  // To ensure it reflects actual measurements instead of just estimates.

  var estimatedTotalSize = itemType === 'column' ? getEstimatedTotalWidth(props, instanceProps) : getEstimatedTotalHeight(props, instanceProps);
  var maxOffset = Math.max(0, Math.min(estimatedTotalSize - size, itemMetadata.offset));
  var minOffset = Math.max(0, itemMetadata.offset - size + itemMetadata.size);

  switch (align) {
    case 'start':
      return maxOffset;

    case 'end':
      return minOffset;

    case 'center':
      return Math.round(minOffset + (maxOffset - minOffset) / 2);

    case 'auto':
    default:
      if (scrollOffset >= minOffset && scrollOffset <= maxOffset) {
        return scrollOffset;
      } else if (scrollOffset - minOffset < maxOffset - scrollOffset) {
        return minOffset;
      } else {
        return maxOffset;
      }

  }
};

var VariableSizeGrid =
/*#__PURE__*/
createGridComponent({
  getColumnOffset: function getColumnOffset(props, index, instanceProps) {
    return getItemMetadata('column', props, index, instanceProps).offset;
  },
  getColumnStartIndexForOffset: function getColumnStartIndexForOffset(props, scrollLeft, instanceProps) {
    return findNearestItem('column', props, instanceProps, scrollLeft);
  },
  getColumnStopIndexForStartIndex: function getColumnStopIndexForStartIndex(props, startIndex, scrollLeft, instanceProps) {
    var columnCount = props.columnCount,
        width = props.width;
    var itemMetadata = getItemMetadata('column', props, startIndex, instanceProps);
    var maxOffset = scrollLeft + width;
    var offset = itemMetadata.offset + itemMetadata.size;
    var stopIndex = startIndex;

    while (stopIndex < columnCount - 1 && offset < maxOffset) {
      stopIndex++;
      offset += getItemMetadata('column', props, stopIndex, instanceProps).size;
    }

    return stopIndex;
  },
  getColumnWidth: function getColumnWidth(props, index, instanceProps) {
    return instanceProps.columnMetadataMap[index].size;
  },
  getEstimatedTotalHeight: getEstimatedTotalHeight,
  getEstimatedTotalWidth: getEstimatedTotalWidth,
  getOffsetForColumnAndAlignment: function getOffsetForColumnAndAlignment(props, index, align, scrollOffset, instanceProps) {
    return getOffsetForIndexAndAlignment('column', props, index, align, scrollOffset, instanceProps);
  },
  getOffsetForRowAndAlignment: function getOffsetForRowAndAlignment(props, index, align, scrollOffset, instanceProps) {
    return getOffsetForIndexAndAlignment('row', props, index, align, scrollOffset, instanceProps);
  },
  getRowOffset: function getRowOffset(props, index, instanceProps) {
    return getItemMetadata('row', props, index, instanceProps).offset;
  },
  getRowHeight: function getRowHeight(props, index, instanceProps) {
    return instanceProps.rowMetadataMap[index].size;
  },
  getRowStartIndexForOffset: function getRowStartIndexForOffset(props, scrollTop, instanceProps) {
    return findNearestItem('row', props, instanceProps, scrollTop);
  },
  getRowStopIndexForStartIndex: function getRowStopIndexForStartIndex(props, startIndex, scrollTop, instanceProps) {
    var rowCount = props.rowCount,
        height = props.height;
    var itemMetadata = getItemMetadata('row', props, startIndex, instanceProps);
    var maxOffset = scrollTop + height;
    var offset = itemMetadata.offset + itemMetadata.size;
    var stopIndex = startIndex;

    while (stopIndex < rowCount - 1 && offset < maxOffset) {
      stopIndex++;
      offset += getItemMetadata('row', props, stopIndex, instanceProps).size;
    }

    return stopIndex;
  },
  initInstanceProps: function initInstanceProps(props, instance) {
    var _ref5 = props,
        estimatedColumnWidth = _ref5.estimatedColumnWidth,
        estimatedRowHeight = _ref5.estimatedRowHeight;
    var instanceProps = {
      columnMetadataMap: {},
      estimatedColumnWidth: estimatedColumnWidth || DEFAULT_ESTIMATED_ITEM_SIZE,
      estimatedRowHeight: estimatedRowHeight || DEFAULT_ESTIMATED_ITEM_SIZE,
      lastMeasuredColumnIndex: -1,
      lastMeasuredRowIndex: -1,
      rowMetadataMap: {}
    };

    instance.resetAfterColumnIndex = function (columnIndex, shouldForceUpdate) {
      if (shouldForceUpdate === void 0) {
        shouldForceUpdate = true;
      }

      instance.resetAfterIndices({
        columnIndex: columnIndex,
        shouldForceUpdate: shouldForceUpdate
      });
    };

    instance.resetAfterRowIndex = function (rowIndex, shouldForceUpdate) {
      if (shouldForceUpdate === void 0) {
        shouldForceUpdate = true;
      }

      instance.resetAfterIndices({
        rowIndex: rowIndex,
        shouldForceUpdate: shouldForceUpdate
      });
    };

    instance.resetAfterIndices = function (_ref6) {
      var columnIndex = _ref6.columnIndex,
          rowIndex = _ref6.rowIndex,
          _ref6$shouldForceUpda = _ref6.shouldForceUpdate,
          shouldForceUpdate = _ref6$shouldForceUpda === void 0 ? true : _ref6$shouldForceUpda;

      if (typeof columnIndex === 'number') {
        instanceProps.lastMeasuredColumnIndex = Math.min(instanceProps.lastMeasuredColumnIndex, columnIndex - 1);
      }

      if (typeof rowIndex === 'number') {
        instanceProps.lastMeasuredRowIndex = Math.min(instanceProps.lastMeasuredRowIndex, rowIndex - 1);
      } // We could potentially optimize further by only evicting styles after this index,
      // But since styles are only cached while scrolling is in progress-
      // It seems an unnecessary optimization.
      // It's unlikely that resetAfterIndex() will be called while a user is scrolling.


      instance._getItemStyleCache(-1);

      if (shouldForceUpdate) {
        instance.forceUpdate();
      }
    };

    return instanceProps;
  },
  shouldResetStyleCacheOnItemSizeChange: false,
  validateProps: function validateProps(_ref7) {
    var columnWidth = _ref7.columnWidth,
        rowHeight = _ref7.rowHeight;

    if (process.env.NODE_ENV !== 'production') {
      if (typeof columnWidth !== 'function') {
        throw Error('An invalid "columnWidth" prop has been specified. ' + 'Value should be a function. ' + ("\"" + (columnWidth === null ? 'null' : typeof columnWidth) + "\" was specified."));
      } else if (typeof rowHeight !== 'function') {
        throw Error('An invalid "rowHeight" prop has been specified. ' + 'Value should be a function. ' + ("\"" + (rowHeight === null ? 'null' : typeof rowHeight) + "\" was specified."));
      }
    }
  }
});

var IS_SCROLLING_DEBOUNCE_INTERVAL$1 = 150;
var REVERSE_HORIZONTAL_MATRIX = 'matrix(-1, 0, 0, 1, 0, 0)';
var REVERSE_VERTICAL_MATRIX = 'matrix(1, 0, 0, -1, 0, 0)';

var defaultItemKey$1 = function defaultItemKey(index) {
  return index;
};

function createListComponent(_ref) {
  var _class, _temp;

  var getItemOffset = _ref.getItemOffset,
      getEstimatedTotalSize = _ref.getEstimatedTotalSize,
      getItemSize = _ref.getItemSize,
      getOffsetForIndexAndAlignment = _ref.getOffsetForIndexAndAlignment,
      getStartIndexForOffset = _ref.getStartIndexForOffset,
      getStopIndexForStartIndex = _ref.getStopIndexForStartIndex,
      initInstanceProps = _ref.initInstanceProps,
      shouldResetStyleCacheOnItemSizeChange = _ref.shouldResetStyleCacheOnItemSizeChange,
      validateProps = _ref.validateProps;
  return _temp = _class =
  /*#__PURE__*/
  function (_PureComponent) {
    _inheritsLoose(List, _PureComponent);

    var _proto = List.prototype;

    _proto._getScrollLength = function _getScrollLength(elem) {
      var scrollHeight = elem.scrollHeight,
          scrollWidth = elem.scrollWidth,
          clientHeight = elem.clientHeight,
          clientWidth = elem.clientWidth,
          scrollTop = elem.scrollTop,
          scrollLeft = elem.scrollLeft;
      return {
        scrollHeight: scrollHeight,
        scrollWidth: scrollWidth,
        clientHeight: clientHeight,
        clientWidth: clientWidth,
        scrollTop: scrollTop,
        scrollLeft: scrollLeft,
        scrollBottom: scrollHeight - clientHeight - scrollTop,
        scrollRight: scrollWidth - clientWidth - scrollLeft
      };
    };

    _proto._setScrollLeft = function _setScrollLeft(elem, scrollLeft) {
      var scrollWidth = elem.scrollWidth,
          clientWidth = elem.clientWidth;
      elem.scrollLeft = Math.min(scrollWidth - clientWidth, Math.max(0, scrollLeft));
    };

    _proto._setScrollRight = function _setScrollRight(elem, scrollRight) {
      var scrollWidth = elem.scrollWidth,
          clientWidth = elem.clientWidth;

      this._setScrollLeft(elem, scrollWidth - clientWidth - Math.max(0, scrollRight));
    };

    _proto._setScrollTop = function _setScrollTop(elem, scrollTop) {
      var scrollHeight = elem.scrollHeight,
          clientHeight = elem.clientHeight;
      elem.scrollTop = Math.min(scrollHeight - clientHeight, Math.max(0, scrollTop));
    };

    _proto._setScrollBottom = function _setScrollBottom(elem, scrollBottom) {
      var scrollHeight = elem.scrollHeight,
          clientHeight = elem.clientHeight;

      this._setScrollTop(elem, scrollHeight - clientHeight - Math.max(0, scrollBottom));
    };

    _proto._maybeSetScrollOffset = function _maybeSetScrollOffset(scrollOffset) {
      if (this._outerRef !== null) {
        var elem = this._outerRef;
        var _this$props = this.props,
            direction = _this$props.direction,
            reversed = _this$props.reversed;

        if (direction === 'horizontal') {
          if (reversed) {
            this._setScrollRight(elem, scrollOffset);
          } else {
            this._setScrollLeft(elem, scrollOffset);
          }
        } else {
          if (reversed) {
            this._setScrollBottom(elem, scrollOffset);
          } else {
            this._setScrollTop(elem, scrollOffset);
          }
        }
      }
    }; // Always use explicit constructor for React components.
    // It produces less code after transpilation. (#26)
    // eslint-disable-next-line no-useless-constructor


    function List(props) {
      var _this;

      _this = _PureComponent.call(this, props) || this;
      _this._instanceProps = initInstanceProps(_this.props, _assertThisInitialized(_assertThisInitialized(_this)));
      _this._outerRef = void 0;
      _this._resetIsScrollingTimeoutId = null;
      _this.state = {
        isScrolling: false,
        scrollDirection: 'forward',
        scrollOffset: typeof _this.props.initialScrollOffset === 'number' ? _this.props.initialScrollOffset : 0,
        scrollUpdateWasRequested: false
      };
      _this._callOnItemsRendered = void 0;
      _this._callOnItemsRendered = memoizeOne(function (overscanStartIndex, overscanStopIndex, visibleStartIndex, visibleStopIndex) {
        return _this.props.onItemsRendered({
          overscanStartIndex: overscanStartIndex,
          overscanStopIndex: overscanStopIndex,
          visibleStartIndex: visibleStartIndex,
          visibleStopIndex: visibleStopIndex
        });
      });
      _this._callOnScroll = void 0;
      _this._callOnScroll = memoizeOne(function (scrollDirection, scrollOffset, scrollUpdateWasRequested) {
        return _this.props.onScroll({
          scrollDirection: scrollDirection,
          scrollOffset: scrollOffset,
          scrollUpdateWasRequested: scrollUpdateWasRequested
        });
      });
      _this._getItemStyle = void 0;

      _this._getItemStyle = function (index) {
        var _this$props2 = _this.props,
            direction = _this$props2.direction,
            itemSize = _this$props2.itemSize,
            reversed = _this$props2.reversed;

        var itemStyleCache = _this._getItemStyleCache(shouldResetStyleCacheOnItemSizeChange && itemSize);

        var style;

        if (itemStyleCache.hasOwnProperty(index)) {
          style = itemStyleCache[index];
        } else {
          style = {
            position: 'absolute',
            left: direction === 'horizontal' ? getItemOffset(_this.props, index, _this._instanceProps) : 0,
            top: direction === 'vertical' ? getItemOffset(_this.props, index, _this._instanceProps) : 0,
            height: direction === 'vertical' ? getItemSize(_this.props, index, _this._instanceProps) : '100%',
            width: direction === 'horizontal' ? getItemSize(_this.props, index, _this._instanceProps) : '100%',
            transform: ''
          };

          if (reversed) {
            style.transform = direction === 'horizontal' ? REVERSE_HORIZONTAL_MATRIX // horizontally reverse
            : REVERSE_VERTICAL_MATRIX; // vertically reverse
          }

          itemStyleCache[index] = style;
        }

        return style;
      };

      _this._getItemStyleCache = void 0;
      _this._getItemStyleCache = memoizeOne(function (_) {
        return {};
      });

      _this._onScrollHorizontal = function (event) {
        var target = event.currentTarget;

        var _this$_getScrollLengt = _this._getScrollLength(target),
            scrollLeft = _this$_getScrollLengt.scrollLeft,
            scrollRight = _this$_getScrollLengt.scrollRight;

        var reversed = _this.props.reversed;
        var scrollOffset = reversed ? scrollRight : scrollLeft;

        _this.setState(function (prevState) {
          if (prevState.scrollOffset === scrollOffset) {
            // Scroll position may have been updated by cDM/cDU,
            // In which case we don't need to trigger another render,
            // And we don't want to update state.isScrolling.
            return null;
          }

          return {
            isScrolling: true,
            scrollDirection: prevState.scrollOffset < scrollOffset ? 'forward' : 'backward',
            scrollOffset: scrollOffset,
            scrollUpdateWasRequested: false
          };
        }, _this._resetIsScrollingDebounced);
      };

      _this._onScrollVertical = function (event) {
        var target = event.currentTarget;

        var _this$_getScrollLengt2 = _this._getScrollLength(target),
            scrollTop = _this$_getScrollLengt2.scrollTop,
            scrollBottom = _this$_getScrollLengt2.scrollBottom;

        var reversed = _this.props.reversed;
        var scrollOffset = reversed ? scrollBottom : scrollTop;

        _this.setState(function (prevState) {
          if (prevState.scrollOffset === scrollOffset) {
            // Scroll position may have been updated by cDM/cDU,
            // In which case we don't need to trigger another render,
            // And we don't want to update state.isScrolling.
            return null;
          }

          return {
            isScrolling: true,
            scrollDirection: prevState.scrollOffset < scrollOffset ? 'forward' : 'backward',
            scrollOffset: scrollOffset,
            scrollUpdateWasRequested: false
          };
        }, _this._resetIsScrollingDebounced);
      };

      _this._outerRefSetter = function (ref) {
        var outerRef = _this.props.outerRef;
        _this._outerRef = ref;

        if (typeof outerRef === 'function') {
          outerRef(ref);
        } else if (outerRef != null && typeof outerRef === 'object' && outerRef.hasOwnProperty('current')) {
          outerRef.current = ref;
        }
      };

      _this._resetIsScrollingDebounced = function () {
        if (_this._resetIsScrollingTimeoutId !== null) {
          clearTimeout(_this._resetIsScrollingTimeoutId);
        }

        _this._resetIsScrollingTimeoutId = setTimeout(_this._resetIsScrolling, IS_SCROLLING_DEBOUNCE_INTERVAL$1);
      };

      _this._resetIsScrolling = function () {
        _this._resetIsScrollingTimeoutId = null;

        _this.setState({
          isScrolling: false
        }, function () {
          // Clear style cache after state update has been committed.
          // This way we don't break pure sCU for items that don't use isScrolling param.
          _this._getItemStyleCache(-1);
        });
      };

      return _this;
    }

    List.getDerivedStateFromProps = function getDerivedStateFromProps(props, state) {
      validateSharedProps$1(props);
      validateProps(props);
      return null;
    };

    _proto.scrollTo = function scrollTo(scrollOffset) {
      this.setState(function (prevState) {
        return {
          scrollDirection: prevState.scrollOffset < scrollOffset ? 'forward' : 'backward',
          scrollOffset: scrollOffset,
          scrollUpdateWasRequested: true
        };
      }, this._resetIsScrollingDebounced);
    };

    _proto.scrollToItem = function scrollToItem(index, align) {
      if (align === void 0) {
        align = 'auto';
      }

      var scrollOffset = this.state.scrollOffset;
      this.scrollTo(getOffsetForIndexAndAlignment(this.props, index, align, scrollOffset, this._instanceProps));
    };

    _proto.componentDidMount = function componentDidMount() {
      var initialScrollOffset = this.props.initialScrollOffset;

      if (typeof initialScrollOffset === 'number') {
        this._maybeSetScrollOffset(initialScrollOffset);
      }

      this._callPropsCallbacks();
    };

    _proto.componentDidUpdate = function componentDidUpdate() {
      var _this$state = this.state,
          scrollOffset = _this$state.scrollOffset,
          scrollUpdateWasRequested = _this$state.scrollUpdateWasRequested;
      /*if (scrollUpdateWasRequested && this._outerRef !== null) {
        if (direction === 'horizontal') {
          ((this._outerRef: any): HTMLDivElement).scrollLeft = scrollOffset;
        } else {
          ((this._outerRef: any): HTMLDivElement).scrollTop = scrollOffset;
        }
      }*/
      // if (scrollUpdateWasRequested) {

      this._maybeSetScrollOffset(scrollOffset); // }


      this._callPropsCallbacks();
    };

    _proto.componentWillUnmount = function componentWillUnmount() {
      if (this._resetIsScrollingTimeoutId !== null) {
        clearTimeout(this._resetIsScrollingTimeoutId);
      }
    };

    _proto.render = function render() {
      var _this$props3 = this.props,
          children = _this$props3.children,
          className = _this$props3.className,
          direction = _this$props3.direction,
          reversed = _this$props3.reversed,
          height = _this$props3.height,
          innerRef = _this$props3.innerRef,
          innerTagName = _this$props3.innerTagName,
          itemCount = _this$props3.itemCount,
          itemData = _this$props3.itemData,
          _this$props3$itemKey = _this$props3.itemKey,
          itemKey = _this$props3$itemKey === void 0 ? defaultItemKey$1 : _this$props3$itemKey,
          outerTagName = _this$props3.outerTagName,
          style = _this$props3.style,
          useIsScrolling = _this$props3.useIsScrolling,
          width = _this$props3.width;
      var isScrolling = this.state.isScrolling;
      var onScroll = direction === 'vertical' ? this._onScrollVertical : this._onScrollHorizontal;

      var _this$_getRangeToRend = this._getRangeToRender(),
          startIndex = _this$_getRangeToRend[0],
          stopIndex = _this$_getRangeToRend[1];

      var items = [];

      if (itemCount > 0) {
        for (var _index = startIndex; _index <= stopIndex; _index++) {
          items.push(react.createElement(children, {
            data: itemData,
            key: itemKey(_index),
            index: _index,
            isScrolling: useIsScrolling ? isScrolling : undefined,
            style: this._getItemStyle(_index)
          }));
        }
      } // Read this value AFTER items have been created,
      // So their actual sizes (if variable) are taken into consideration.


      var estimatedTotalSize = getEstimatedTotalSize(this.props, this._instanceProps);
      return react.createElement(outerTagName, {
        className: className,
        onScroll: onScroll,
        ref: this._outerRefSetter,
        style: _extends({
          position: 'relative',
          height: height,
          width: width,
          overflow: 'auto',
          WebkitOverflowScrolling: 'touch',
          willChange: 'transform'
        }, style)
      }, react.createElement(innerTagName, {
        children: items,
        ref: innerRef,
        style: {
          height: direction === 'horizontal' ? '100%' : estimatedTotalSize,
          pointerEvents: isScrolling ? 'none' : '',
          width: direction === 'horizontal' ? estimatedTotalSize : '100%',
          transform: reversed ? direction === 'horizontal' ? REVERSE_HORIZONTAL_MATRIX : REVERSE_VERTICAL_MATRIX : ''
        }
      }));
    };

    _proto._callPropsCallbacks = function _callPropsCallbacks() {
      if (typeof this.props.onItemsRendered === 'function') {
        var itemCount = this.props.itemCount;

        if (itemCount > 0) {
          var _this$_getRangeToRend2 = this._getRangeToRender(),
              _overscanStartIndex = _this$_getRangeToRend2[0],
              _overscanStopIndex = _this$_getRangeToRend2[1],
              _visibleStartIndex = _this$_getRangeToRend2[2],
              _visibleStopIndex = _this$_getRangeToRend2[3];

          this._callOnItemsRendered(_overscanStartIndex, _overscanStopIndex, _visibleStartIndex, _visibleStopIndex);
        }
      }

      if (typeof this.props.onScroll === 'function') {
        var _this$state2 = this.state,
            _scrollDirection = _this$state2.scrollDirection,
            _scrollOffset = _this$state2.scrollOffset,
            _scrollUpdateWasRequested = _this$state2.scrollUpdateWasRequested;

        this._callOnScroll(_scrollDirection, _scrollOffset, _scrollUpdateWasRequested);
      }
    }; // Lazily create and cache item styles while scrolling,
    // So that pure component sCU will prevent re-renders.
    // We maintain this cache, and pass a style prop rather than index,
    // So that List can clear cached styles and force item re-render if necessary.


    _proto._getRangeToRender = function _getRangeToRender() {
      var _this$props4 = this.props,
          itemCount = _this$props4.itemCount,
          overscanCount = _this$props4.overscanCount;
      var _this$state3 = this.state,
          scrollDirection = _this$state3.scrollDirection,
          scrollOffset = _this$state3.scrollOffset;

      if (itemCount === 0) {
        return [0, 0, 0, 0];
      }

      var startIndex = getStartIndexForOffset(this.props, scrollOffset, this._instanceProps);
      var stopIndex = getStopIndexForStartIndex(this.props, startIndex, scrollOffset, this._instanceProps); // Overscan by one item in each direction so that tab/focus works.
      // If there isn't at least one extra item, tab loops back around.

      var overscanBackward = scrollDirection === 'backward' ? Math.max(1, overscanCount) : 1;
      var overscanForward = scrollDirection === 'forward' ? Math.max(1, overscanCount) : 1;
      return [Math.max(0, startIndex - overscanBackward), Math.max(0, Math.min(itemCount - 1, stopIndex + overscanForward)), startIndex, stopIndex];
    };

    return List;
  }(react.PureComponent), _class.defaultProps = {
    direction: 'vertical',
    reversed: false,
    innerTagName: 'div',
    itemData: undefined,
    outerTagName: 'div',
    overscanCount: 2,
    useIsScrolling: false
  }, _temp;
} // NOTE: I considered further wrapping individual items with a pure ListItem component.
// This would avoid ever calling the render function for the same index more than once,
// But it would also add the overhead of a lot of components/fibers.
// I assume people already do this (render function returning a class component),
// So my doing it would just unnecessarily double the wrappers.

var validateSharedProps$1 = function validateSharedProps(_ref2) {
  var children = _ref2.children,
      direction = _ref2.direction,
      height = _ref2.height,
      width = _ref2.width;

  if (process.env.NODE_ENV !== 'production') {
    if (direction !== 'horizontal' && direction !== 'vertical') {
      throw Error('An invalid "direction" prop has been specified. ' + 'Value should be either "horizontal" or "vertical". ' + ("\"" + direction + "\" was specified."));
    }

    if (children == null) {
      throw Error('An invalid "children" prop has been specified. ' + 'Value should be a React component. ' + ("\"" + (children === null ? 'null' : typeof children) + "\" was specified."));
    }

    if (direction === 'horizontal' && typeof width !== 'number') {
      throw Error('An invalid "width" prop has been specified. ' + 'Horizontal lists must specify a number for width. ' + ("\"" + (width === null ? 'null' : typeof width) + "\" was specified."));
    } else if (direction === 'vertical' && typeof height !== 'number') {
      throw Error('An invalid "height" prop has been specified. ' + 'Vertical lists must specify a number for height. ' + ("\"" + (height === null ? 'null' : typeof height) + "\" was specified."));
    }
  }
};

var DEFAULT_ESTIMATED_ITEM_SIZE$1 = 50;

var getItemMetadata$1 = function getItemMetadata(props, index, instanceProps) {
  var _ref = props,
      itemSize = _ref.itemSize,
      onUpdateMetadata = _ref.onUpdateMetadata;
  var itemMetadataMap = instanceProps.itemMetadataMap,
      lastMeasuredIndex = instanceProps.lastMeasuredIndex;

  if (index > lastMeasuredIndex) {
    var offset = 0;

    if (lastMeasuredIndex >= 0) {
      var itemMetadata = itemMetadataMap[lastMeasuredIndex];
      offset = itemMetadata.offset + itemMetadata.size;
    }

    for (var i = lastMeasuredIndex + 1; i <= index; i++) {
      var size = itemSize(i);
      itemMetadataMap[i] = {
        offset: offset,
        size: size
      };
      offset += size;
    }

    instanceProps.lastMeasuredIndex = index;

    if (onUpdateMetadata) {
      onUpdateMetadata({
        itemMetadataMap: itemMetadataMap,
        lastMeasuredIndex: lastMeasuredIndex
      });
    }
  }

  return itemMetadataMap[index];
};

var findNearestItem$1 = function findNearestItem(props, instanceProps, offset) {
  var itemMetadataMap = instanceProps.itemMetadataMap,
      lastMeasuredIndex = instanceProps.lastMeasuredIndex;
  var lastMeasuredItemOffset = lastMeasuredIndex >