react-native/Libraries/Lists/VirtualizedList.js

1257 lines
40 KiB
JavaScript

/**
* Copyright (c) 2015-present, Facebook, Inc.
* All rights reserved.
*
* This source code is licensed under the BSD-style license found in the
* LICENSE file in the root directory of this source tree. An additional grant
* of patent rights can be found in the PATENTS file in the same directory.
*
* @providesModule VirtualizedList
* @flow
* @format
*/
'use strict';
const Batchinator = require('Batchinator');
const FillRateHelper = require('FillRateHelper');
const PropTypes = require('prop-types');
const React = require('React');
const ReactNative = require('ReactNative');
const RefreshControl = require('RefreshControl');
const ScrollView = require('ScrollView');
const StyleSheet = require('StyleSheet');
const View = require('View');
const ViewabilityHelper = require('ViewabilityHelper');
const flattenStyle = require('flattenStyle');
const infoLog = require('infoLog');
const invariant = require('fbjs/lib/invariant');
const warning = require('fbjs/lib/warning');
const {computeWindowedRenderLimits} = require('VirtualizeUtils');
import type {StyleObj} from 'StyleSheetTypes';
import type {ViewabilityConfig, ViewToken} from 'ViewabilityHelper';
type Item = any;
type renderItemType = (info: any) => ?React.Element<any>;
type RequiredProps = {
renderItem: renderItemType,
/**
* The default accessor functions assume this is an Array<{key: string}> but you can override
* getItem, getItemCount, and keyExtractor to handle any type of index-based data.
*/
data?: any,
/**
* A generic accessor for extracting an item from any sort of data blob.
*/
getItem: (data: any, index: number) => ?Item,
/**
* Determines how many items are in the data blob.
*/
getItemCount: (data: any) => number,
};
type OptionalProps = {
/**
* `debug` will turn on extra logging and visual overlays to aid with debugging both usage and
* implementation, but with a significant perf hit.
*/
debug?: ?boolean,
/**
* DEPRECATED: Virtualization provides significant performance and memory optimizations, but fully
* unmounts react instances that are outside of the render window. You should only need to disable
* this for debugging purposes.
*/
disableVirtualization: boolean,
/**
* A marker property for telling the list to re-render (since it implements `PureComponent`). If
* any of your `renderItem`, Header, Footer, etc. functions depend on anything outside of the
* `data` prop, stick it here and treat it immutably.
*/
extraData?: any,
getItemLayout?: (
data: any,
index: number,
) => {length: number, offset: number, index: number}, // e.g. height, y
horizontal?: ?boolean,
/**
* How many items to render in the initial batch. This should be enough to fill the screen but not
* much more. Note these items will never be unmounted as part of the windowed rendering in order
* to improve perceived performance of scroll-to-top actions.
*/
initialNumToRender: number,
/**
* Instead of starting at the top with the first item, start at `initialScrollIndex`. This
* disables the "scroll to top" optimization that keeps the first `initialNumToRender` items
* always rendered and immediately renders the items starting at this initial index. Requires
* `getItemLayout` to be implemented.
*/
initialScrollIndex?: ?number,
/**
* Reverses the direction of scroll. Uses scale transforms of -1.
*/
inverted?: ?boolean,
keyExtractor: (item: Item, index: number) => string,
/**
* Rendered when the list is empty. Can be a React Component Class, a render function, or
* a rendered element.
*/
ListEmptyComponent?: ?(ReactClass<any> | React.Element<any>),
/**
* Rendered at the bottom of all the items. Can be a React Component Class, a render function, or
* a rendered element.
*/
ListFooterComponent?: ?(ReactClass<any> | React.Element<any>),
/**
* Rendered at the top of all the items. Can be a React Component Class, a render function, or
* a rendered element.
*/
ListHeaderComponent?: ?(ReactClass<any> | React.Element<any>),
/**
* The maximum number of items to render in each incremental render batch. The more rendered at
* once, the better the fill rate, but responsiveness my suffer because rendering content may
* interfere with responding to button taps or other interactions.
*/
maxToRenderPerBatch: number,
onEndReached?: ?(info: {distanceFromEnd: number}) => void,
onEndReachedThreshold?: ?number, // units of visible length
onLayout?: ?Function,
/**
* If provided, a standard RefreshControl will be added for "Pull to Refresh" functionality. Make
* sure to also set the `refreshing` prop correctly.
*/
onRefresh?: ?Function,
/**
* Called when the viewability of rows changes, as defined by the
* `viewabilityConfig` prop.
*/
onViewableItemsChanged?: ?(info: {
viewableItems: Array<ViewToken>,
changed: Array<ViewToken>,
}) => void,
/**
* Set this when offset is needed for the loading indicator to show correctly.
* @platform android
*/
progressViewOffset?: number,
/**
* Set this true while waiting for new data from a refresh.
*/
refreshing?: ?boolean,
/**
* Note: may have bugs (missing content) in some circumstances - use at your own risk.
*
* This may improve scroll performance for large lists.
*/
removeClippedSubviews?: boolean,
/**
* Render a custom scroll component, e.g. with a differently styled `RefreshControl`.
*/
renderScrollComponent?: (props: Object) => React.Element<any>,
/**
* Amount of time between low-pri item render batches, e.g. for rendering items quite a ways off
* screen. Similar fill rate/responsiveness tradeoff as `maxToRenderPerBatch`.
*/
updateCellsBatchingPeriod: number,
viewabilityConfig?: ViewabilityConfig,
/**
* Determines the maximum number of items rendered outside of the visible area, in units of
* visible lengths. So if your list fills the screen, then `windowSize={21}` (the default) will
* render the visible screen area plus up to 10 screens above and 10 below the viewport. Reducing
* this number will reduce memory consumption and may improve performance, but will increase the
* chance that fast scrolling may reveal momentary blank areas of unrendered content.
*/
windowSize: number,
};
/* $FlowFixMe - this Props seems to be missing a bunch of stuff. Remove this
* comment to see the errors */
export type Props = RequiredProps & OptionalProps;
let _usedIndexForKey = false;
type State = {first: number, last: number};
/**
* Base implementation for the more convenient [`<FlatList>`](/react-native/docs/flatlist.html)
* and [`<SectionList>`](/react-native/docs/sectionlist.html) components, which are also better
* documented. In general, this should only really be used if you need more flexibility than
* `FlatList` provides, e.g. for use with immutable data instead of plain arrays.
*
* Virtualization massively improves memory consumption and performance of large lists by
* maintaining a finite render window of active items and replacing all items outside of the render
* window with appropriately sized blank space. The window adapts to scrolling behavior, and items
* are rendered incrementally with low-pri (after any running interactions) if they are far from the
* visible area, or with hi-pri otherwise to minimize the potential of seeing blank space.
*
* Some caveats:
*
* - Internal state is not preserved when content scrolls out of the render window. Make sure all
* your data is captured in the item data or external stores like Flux, Redux, or Relay.
* - This is a `PureComponent` which means that it will not re-render if `props` remain shallow-
* equal. Make sure that everything your `renderItem` function depends on is passed as a prop
* (e.g. `extraData`) that is not `===` after updates, otherwise your UI may not update on
* changes. This includes the `data` prop and parent component state.
* - In order to constrain memory and enable smooth scrolling, content is rendered asynchronously
* offscreen. This means it's possible to scroll faster than the fill rate ands momentarily see
* blank content. This is a tradeoff that can be adjusted to suit the needs of each application,
* and we are working on improving it behind the scenes.
* - By default, the list looks for a `key` prop on each item and uses that for the React key.
* Alternatively, you can provide a custom `keyExtractor` prop.
*
*/
class VirtualizedList extends React.PureComponent<OptionalProps, Props, State> {
props: Props;
// scrollToEnd may be janky without getItemLayout prop
scrollToEnd(params?: ?{animated?: ?boolean}) {
const animated = params ? params.animated : true;
const veryLast = this.props.getItemCount(this.props.data) - 1;
const frame = this._getFrameMetricsApprox(veryLast);
const offset = Math.max(
0,
frame.offset +
frame.length +
this._footerLength -
this._scrollMetrics.visibleLength,
);
this._scrollRef.scrollTo(
this.props.horizontal ? {x: offset, animated} : {y: offset, animated},
);
}
// scrollToIndex may be janky without getItemLayout prop
scrollToIndex(params: {
animated?: ?boolean,
index: number,
viewOffset?: number,
viewPosition?: number,
}) {
const {data, horizontal, getItemCount, getItemLayout} = this.props;
const {animated, index, viewOffset, viewPosition} = params;
invariant(
index >= 0 && index < getItemCount(data),
`scrollToIndex out of range: ${index} vs ${getItemCount(data) - 1}`,
);
invariant(
getItemLayout || index < this._highestMeasuredFrameIndex,
'scrollToIndex should be used in conjunction with getItemLayout, ' +
'otherwise there is no way to know the location of an arbitrary index.',
);
const frame = this._getFrameMetricsApprox(index);
const offset =
Math.max(
0,
frame.offset -
(viewPosition || 0) *
(this._scrollMetrics.visibleLength - frame.length),
) - (viewOffset || 0);
this._scrollRef.scrollTo(
horizontal ? {x: offset, animated} : {y: offset, animated},
);
}
// scrollToItem may be janky without getItemLayout prop. Required linear scan through items -
// use scrollToIndex instead if possible.
scrollToItem(params: {
animated?: ?boolean,
item: Item,
viewPosition?: number,
}) {
const {item} = params;
const {data, getItem, getItemCount} = this.props;
const itemCount = getItemCount(data);
for (let index = 0; index < itemCount; index++) {
if (getItem(data, index) === item) {
this.scrollToIndex({...params, index});
break;
}
}
}
/**
* Scroll to a specific content pixel offset in the list.
*
* Param `offset` expects the offset to scroll to.
* In case of `horizontal` is true, the offset is the x-value,
* in any other case the offset is the y-value.
*
* Param `animated` (`true` by default) defines whether the list
* should do an animation while scrolling.
*/
scrollToOffset(params: {animated?: ?boolean, offset: number}) {
const {animated, offset} = params;
this._scrollRef.scrollTo(
this.props.horizontal ? {x: offset, animated} : {y: offset, animated},
);
}
recordInteraction() {
this._viewabilityHelper.recordInteraction();
this._updateViewableItems(this.props.data);
}
flashScrollIndicators() {
this._scrollRef.flashScrollIndicators();
}
/**
* Provides a handle to the underlying scroll responder.
* Note that `this._scrollRef` might not be a `ScrollView`, so we
* need to check that it responds to `getScrollResponder` before calling it.
*/
getScrollResponder() {
if (this._scrollRef && this._scrollRef.getScrollResponder) {
return this._scrollRef.getScrollResponder();
}
}
getScrollableNode() {
if (this._scrollRef && this._scrollRef.getScrollableNode) {
return this._scrollRef.getScrollableNode();
} else {
return ReactNative.findNodeHandle(this._scrollRef);
}
}
setNativeProps(props: Object) {
if (this._scrollRef) {
this._scrollRef.setNativeProps(props);
}
}
static defaultProps = {
disableVirtualization: false,
horizontal: false,
initialNumToRender: 10,
keyExtractor: (item: Item, index: number) => {
if (item.key != null) {
return item.key;
}
_usedIndexForKey = true;
return String(index);
},
maxToRenderPerBatch: 10,
onEndReachedThreshold: 2, // multiples of length
scrollEventThrottle: 50,
updateCellsBatchingPeriod: 50,
windowSize: 21, // multiples of length
};
static contextTypes = {
virtualizedList: PropTypes.shape({
horizontal: PropTypes.bool,
}),
};
static childContextTypes = {
virtualizedList: PropTypes.shape({
horizontal: PropTypes.bool,
}),
};
getChildContext() {
return {
virtualizedList: {
horizontal: this.props.horizontal,
// TODO: support nested virtualization and onViewableItemsChanged
},
};
}
state: State;
constructor(props: Props, context: Object) {
super(props, context);
invariant(
!props.onScroll || !props.onScroll.__isNative,
'Components based on VirtualizedList must be wrapped with Animated.createAnimatedComponent ' +
'to support native onScroll events with useNativeDriver',
);
invariant(
!(this._isNestedWithSameOrientation() && props.onViewableItemsChanged),
'Nesting lists that scroll in the same direction does not support onViewableItemsChanged' +
'on the inner list.',
);
this._fillRateHelper = new FillRateHelper(this._getFrameMetrics);
this._updateCellsToRenderBatcher = new Batchinator(
this._updateCellsToRender,
this.props.updateCellsBatchingPeriod,
);
this._viewabilityHelper = new ViewabilityHelper(
this.props.viewabilityConfig,
);
this.state = {
first: this.props.initialScrollIndex || 0,
last:
Math.min(
this.props.getItemCount(this.props.data),
(this.props.initialScrollIndex || 0) + this.props.initialNumToRender,
) - 1,
};
}
componentDidMount() {
if (this.props.initialScrollIndex) {
this._initialScrollIndexTimeout = setTimeout(
() =>
this.scrollToIndex({
animated: false,
index: this.props.initialScrollIndex,
}),
0,
);
}
}
componentWillUnmount() {
this._updateViewableItems(null);
this._updateCellsToRenderBatcher.dispose();
this._viewabilityHelper.dispose();
this._fillRateHelper.deactivateAndFlush();
clearTimeout(this._initialScrollIndexTimeout);
}
componentWillReceiveProps(newProps: Props) {
const {data, extraData, getItemCount, maxToRenderPerBatch} = newProps;
// first and last could be stale (e.g. if a new, shorter items props is passed in), so we make
// sure we're rendering a reasonable range here.
this.setState({
first: Math.max(
0,
Math.min(
this.state.first,
getItemCount(data) - 1 - maxToRenderPerBatch,
),
),
last: Math.max(0, Math.min(this.state.last, getItemCount(data) - 1)),
});
if (data !== this.props.data || extraData !== this.props.extraData) {
this._hasDataChangedSinceEndReached = true;
}
}
_pushCells(
cells: Array<Object>,
stickyHeaderIndices: Array<number>,
stickyIndicesFromProps: Set<number>,
first: number,
last: number,
inversionStyle: ?StyleObj,
) {
const {
ItemSeparatorComponent,
data,
getItem,
getItemCount,
keyExtractor,
} = this.props;
const stickyOffset = this.props.ListHeaderComponent ? 1 : 0;
const end = getItemCount(data) - 1;
let prevCellKey;
last = Math.min(end, last);
for (let ii = first; ii <= last; ii++) {
const item = getItem(data, ii);
invariant(item, 'No item for index ' + ii);
const key = keyExtractor(item, ii);
if (stickyIndicesFromProps.has(ii + stickyOffset)) {
stickyHeaderIndices.push(cells.length);
}
cells.push(
<CellRenderer
ItemSeparatorComponent={ii < end ? ItemSeparatorComponent : undefined}
cellKey={key}
fillRateHelper={this._fillRateHelper}
index={ii}
inversionStyle={inversionStyle}
item={item}
key={key}
prevCellKey={prevCellKey}
onUpdateSeparators={this._onUpdateSeparators}
onLayout={e => this._onCellLayout(e, key, ii)}
onUnmount={this._onCellUnmount}
parentProps={this.props}
ref={ref => {
this._cellRefs[key] = ref;
}}
/>,
);
prevCellKey = key;
}
}
_onUpdateSeparators = (keys: Array<?string>, newProps: Object) => {
keys.forEach(key => {
const ref = key != null && this._cellRefs[key];
ref && ref.updateSeparatorProps(newProps);
});
};
_isVirtualizationDisabled(): boolean {
return (
this.props.disableVirtualization || this._isNestedWithSameOrientation()
);
}
_isNestedWithSameOrientation(): boolean {
const nestedContext = this.context.virtualizedList;
return !!(
nestedContext && !!nestedContext.horizontal === !!this.props.horizontal
);
}
render() {
if (__DEV__) {
const flatStyles = flattenStyle(this.props.contentContainerStyle);
warning(
flatStyles == null || flatStyles.flexWrap !== 'wrap',
'`flexWrap: `wrap`` is not supported with the `VirtualizedList` components.' +
'Consider using `numColumns` with `FlatList` instead.',
);
}
const {
ListEmptyComponent,
ListFooterComponent,
ListHeaderComponent,
} = this.props;
const {data, horizontal} = this.props;
const isVirtualizationDisabled = this._isVirtualizationDisabled();
const inversionStyle = this.props.inverted
? this.props.horizontal
? styles.horizontallyInverted
: styles.verticallyInverted
: null;
const cells = [];
const stickyIndicesFromProps = new Set(this.props.stickyHeaderIndices);
const stickyHeaderIndices = [];
if (ListHeaderComponent) {
const element = React.isValidElement(ListHeaderComponent)
? ListHeaderComponent // $FlowFixMe
: <ListHeaderComponent />;
cells.push(
<View
key="$header"
onLayout={this._onLayoutHeader}
style={inversionStyle}>
{element}
</View>,
);
}
const itemCount = this.props.getItemCount(data);
if (itemCount > 0) {
_usedIndexForKey = false;
const spacerKey = !horizontal ? 'height' : 'width';
const lastInitialIndex = this.props.initialScrollIndex
? -1
: this.props.initialNumToRender - 1;
const {first, last} = this.state;
this._pushCells(
cells,
stickyHeaderIndices,
stickyIndicesFromProps,
0,
lastInitialIndex,
inversionStyle,
);
const firstAfterInitial = Math.max(lastInitialIndex + 1, first);
if (!isVirtualizationDisabled && first > lastInitialIndex + 1) {
let insertedStickySpacer = false;
if (stickyIndicesFromProps.size > 0) {
const stickyOffset = ListHeaderComponent ? 1 : 0;
// See if there are any sticky headers in the virtualized space that we need to render.
for (let ii = firstAfterInitial - 1; ii > lastInitialIndex; ii--) {
if (stickyIndicesFromProps.has(ii + stickyOffset)) {
const initBlock = this._getFrameMetricsApprox(lastInitialIndex);
const stickyBlock = this._getFrameMetricsApprox(ii);
const leadSpace =
stickyBlock.offset - (initBlock.offset + initBlock.length);
cells.push(
<View key="$sticky_lead" style={{[spacerKey]: leadSpace}} />,
);
this._pushCells(
cells,
stickyHeaderIndices,
stickyIndicesFromProps,
ii,
ii,
inversionStyle,
);
const trailSpace =
this._getFrameMetricsApprox(first).offset -
(stickyBlock.offset + stickyBlock.length);
cells.push(
<View key="$sticky_trail" style={{[spacerKey]: trailSpace}} />,
);
insertedStickySpacer = true;
break;
}
}
}
if (!insertedStickySpacer) {
const initBlock = this._getFrameMetricsApprox(lastInitialIndex);
const firstSpace =
this._getFrameMetricsApprox(first).offset -
(initBlock.offset + initBlock.length);
cells.push(
<View key="$lead_spacer" style={{[spacerKey]: firstSpace}} />,
);
}
}
this._pushCells(
cells,
stickyHeaderIndices,
stickyIndicesFromProps,
firstAfterInitial,
last,
inversionStyle,
);
if (!this._hasWarned.keys && _usedIndexForKey) {
console.warn(
'VirtualizedList: missing keys for items, make sure to specify a key property on each ' +
'item or provide a custom keyExtractor.',
);
this._hasWarned.keys = true;
}
if (!isVirtualizationDisabled && last < itemCount - 1) {
const lastFrame = this._getFrameMetricsApprox(last);
// Without getItemLayout, we limit our tail spacer to the _highestMeasuredFrameIndex to
// prevent the user for hyperscrolling into un-measured area because otherwise content will
// likely jump around as it renders in above the viewport.
const end = this.props.getItemLayout
? itemCount - 1
: Math.min(itemCount - 1, this._highestMeasuredFrameIndex);
const endFrame = this._getFrameMetricsApprox(end);
const tailSpacerLength =
endFrame.offset +
endFrame.length -
(lastFrame.offset + lastFrame.length);
cells.push(
<View key="$tail_spacer" style={{[spacerKey]: tailSpacerLength}} />,
);
}
} else if (ListEmptyComponent) {
const element = React.isValidElement(ListEmptyComponent)
? ListEmptyComponent // $FlowFixMe
: <ListEmptyComponent />;
cells.push(
<View
key="$empty"
onLayout={this._onLayoutEmpty}
style={inversionStyle}>
{element}
</View>,
);
}
if (ListFooterComponent) {
const element = React.isValidElement(ListFooterComponent)
? ListFooterComponent // $FlowFixMe
: <ListFooterComponent />;
cells.push(
<View
key="$footer"
onLayout={this._onLayoutFooter}
style={inversionStyle}>
{element}
</View>,
);
}
const scrollProps = {
...this.props,
onContentSizeChange: this._onContentSizeChange,
onLayout: this._onLayout,
onScroll: this._onScroll,
onScrollBeginDrag: this._onScrollBeginDrag,
onScrollEndDrag: this._onScrollEndDrag,
onMomentumScrollEnd: this._onMomentumScrollEnd,
scrollEventThrottle: this.props.scrollEventThrottle, // TODO: Android support
stickyHeaderIndices,
};
if (inversionStyle) {
scrollProps.style = [inversionStyle, this.props.style];
}
const ret = React.cloneElement(
(this.props.renderScrollComponent || this._defaultRenderScrollComponent)(
scrollProps,
),
{
ref: this._captureScrollRef,
},
cells,
);
if (this.props.debug) {
return (
<View style={{flex: 1}}>
{ret}
{this._renderDebugOverlay()}
</View>
);
} else {
return ret;
}
}
componentDidUpdate() {
this._scheduleCellsToRenderUpdate();
}
_averageCellLength = 0;
_cellRefs = {};
_hasDataChangedSinceEndReached = true;
_hasWarned = {};
_highestMeasuredFrameIndex = 0;
_headerLength = 0;
_initialScrollIndexTimeout = 0;
_fillRateHelper: FillRateHelper;
_frames = {};
_footerLength = 0;
_scrollMetrics = {
contentLength: 0,
dOffset: 0,
dt: 10,
offset: 0,
timestamp: 0,
velocity: 0,
visibleLength: 0,
};
_scrollRef = (null: any);
_sentEndForContentLength = 0;
_totalCellLength = 0;
_totalCellsMeasured = 0;
_updateCellsToRenderBatcher: Batchinator;
_viewabilityHelper: ViewabilityHelper;
_captureScrollRef = ref => {
this._scrollRef = ref;
};
_computeBlankness() {
this._fillRateHelper.computeBlankness(
this.props,
this.state,
this._scrollMetrics,
);
}
_defaultRenderScrollComponent = props => {
if (this._isNestedWithSameOrientation()) {
return <View {...props} />;
} else if (props.onRefresh) {
invariant(
typeof props.refreshing === 'boolean',
'`refreshing` prop must be set as a boolean in order to use `onRefresh`, but got `' +
JSON.stringify(props.refreshing) +
'`',
);
return (
<ScrollView
{...props}
refreshControl={
<RefreshControl
refreshing={props.refreshing}
onRefresh={props.onRefresh}
progressViewOffset={props.progressViewOffset}
/>
}
/>
);
} else {
return <ScrollView {...props} />;
}
};
_onCellLayout(e, cellKey, index) {
const layout = e.nativeEvent.layout;
const next = {
offset: this._selectOffset(layout),
length: this._selectLength(layout),
index,
inLayout: true,
};
const curr = this._frames[cellKey];
if (
!curr ||
next.offset !== curr.offset ||
next.length !== curr.length ||
index !== curr.index
) {
this._totalCellLength += next.length - (curr ? curr.length : 0);
this._totalCellsMeasured += curr ? 0 : 1;
this._averageCellLength =
this._totalCellLength / this._totalCellsMeasured;
this._frames[cellKey] = next;
this._highestMeasuredFrameIndex = Math.max(
this._highestMeasuredFrameIndex,
index,
);
this._scheduleCellsToRenderUpdate();
} else {
this._frames[cellKey].inLayout = true;
}
this._computeBlankness();
}
_onCellUnmount = (cellKey: string) => {
const curr = this._frames[cellKey];
if (curr) {
this._frames[cellKey] = {...curr, inLayout: false};
}
};
_onLayout = (e: Object) => {
this._scrollMetrics.visibleLength = this._selectLength(
e.nativeEvent.layout,
);
this.props.onLayout && this.props.onLayout(e);
this._scheduleCellsToRenderUpdate();
this._maybeCallOnEndReached();
};
_onLayoutEmpty = e => {
this.props.onLayout && this.props.onLayout(e);
};
_onLayoutFooter = e => {
this._footerLength = this._selectLength(e.nativeEvent.layout);
};
_onLayoutHeader = e => {
this._headerLength = this._selectLength(e.nativeEvent.layout);
};
_renderDebugOverlay() {
const normalize =
this._scrollMetrics.visibleLength / this._scrollMetrics.contentLength;
const framesInLayout = [];
const itemCount = this.props.getItemCount(this.props.data);
for (let ii = 0; ii < itemCount; ii++) {
const frame = this._getFrameMetricsApprox(ii);
if (frame.inLayout) {
framesInLayout.push(frame);
}
}
const windowTop = this._getFrameMetricsApprox(this.state.first).offset;
const frameLast = this._getFrameMetricsApprox(this.state.last);
const windowLen = frameLast.offset + frameLast.length - windowTop;
const visTop = this._scrollMetrics.offset;
const visLen = this._scrollMetrics.visibleLength;
const baseStyle = {position: 'absolute', top: 0, right: 0};
return (
<View
style={{
...baseStyle,
bottom: 0,
width: 20,
borderColor: 'blue',
borderWidth: 1,
}}>
{framesInLayout.map((f, ii) =>
<View
key={'f' + ii}
style={{
...baseStyle,
left: 0,
top: f.offset * normalize,
height: f.length * normalize,
backgroundColor: 'orange',
}}
/>,
)}
<View
style={{
...baseStyle,
left: 0,
top: windowTop * normalize,
height: windowLen * normalize,
borderColor: 'green',
borderWidth: 2,
}}
/>
<View
style={{
...baseStyle,
left: 0,
top: visTop * normalize,
height: visLen * normalize,
borderColor: 'red',
borderWidth: 2,
}}
/>
</View>
);
}
_selectLength(metrics: {height: number, width: number}): number {
return !this.props.horizontal ? metrics.height : metrics.width;
}
_selectOffset(metrics: {x: number, y: number}): number {
return !this.props.horizontal ? metrics.y : metrics.x;
}
_maybeCallOnEndReached() {
const {
data,
getItemCount,
onEndReached,
onEndReachedThreshold,
} = this.props;
const {contentLength, visibleLength, offset} = this._scrollMetrics;
const distanceFromEnd = contentLength - visibleLength - offset;
if (
onEndReached &&
this.state.last === getItemCount(data) - 1 &&
distanceFromEnd < onEndReachedThreshold * visibleLength &&
(this._hasDataChangedSinceEndReached ||
this._scrollMetrics.contentLength !== this._sentEndForContentLength)
) {
// Only call onEndReached once for a given dataset + content length.
this._hasDataChangedSinceEndReached = false;
this._sentEndForContentLength = this._scrollMetrics.contentLength;
onEndReached({distanceFromEnd});
}
}
_onContentSizeChange = (width: number, height: number) => {
if (this.props.onContentSizeChange) {
this.props.onContentSizeChange(width, height);
}
this._scrollMetrics.contentLength = this._selectLength({height, width});
this._scheduleCellsToRenderUpdate();
this._maybeCallOnEndReached();
};
_onScroll = (e: Object) => {
if (this.props.onScroll) {
this.props.onScroll(e);
}
const timestamp = e.timeStamp;
const visibleLength = this._selectLength(e.nativeEvent.layoutMeasurement);
const contentLength = this._selectLength(e.nativeEvent.contentSize);
const offset = this._selectOffset(e.nativeEvent.contentOffset);
const dt = this._scrollMetrics.timestamp
? Math.max(1, timestamp - this._scrollMetrics.timestamp)
: 1;
if (
dt > 500 &&
this._scrollMetrics.dt > 500 &&
contentLength > 5 * visibleLength &&
!this._hasWarned.perf
) {
infoLog(
'VirtualizedList: You have a large list that is slow to update - make sure your ' +
'renderItem function renders components that follow React performance best practices ' +
'like PureComponent, shouldComponentUpdate, etc.',
{dt, prevDt: this._scrollMetrics.dt, contentLength},
);
this._hasWarned.perf = true;
}
const dOffset = offset - this._scrollMetrics.offset;
const velocity = dOffset / dt;
this._scrollMetrics = {
contentLength,
dt,
dOffset,
offset,
timestamp,
velocity,
visibleLength,
};
this._updateViewableItems(this.props.data);
if (!this.props) {
return;
}
this._maybeCallOnEndReached();
if (velocity !== 0) {
this._fillRateHelper.activate();
}
this._computeBlankness();
this._scheduleCellsToRenderUpdate();
};
_scheduleCellsToRenderUpdate() {
const {first, last} = this.state;
const {offset, visibleLength, velocity} = this._scrollMetrics;
const itemCount = this.props.getItemCount(this.props.data);
let hiPri = false;
if (first > 0 || last < itemCount - 1) {
const distTop = offset - this._getFrameMetricsApprox(first).offset;
const distBottom =
this._getFrameMetricsApprox(last).offset - (offset + visibleLength);
const scrollingThreshold =
this.props.onEndReachedThreshold * visibleLength / 2;
hiPri =
Math.min(distTop, distBottom) < 0 ||
(velocity < -2 && distTop < scrollingThreshold) ||
(velocity > 2 && distBottom < scrollingThreshold);
}
// Only trigger high-priority updates if we've actually rendered cells,
// and with that size estimate, accurately compute how many cells we should render.
// Otherwise, it would just render as many cells as it can (of zero dimension),
// each time through attempting to render more (limited by maxToRenderPerBatch),
// starving the renderer from actually laying out the objects and computing _averageCellLength.
if (hiPri && this._averageCellLength) {
// Don't worry about interactions when scrolling quickly; focus on filling content as fast
// as possible.
this._updateCellsToRenderBatcher.dispose({abort: true});
this._updateCellsToRender();
return;
} else {
this._updateCellsToRenderBatcher.schedule();
}
}
_onScrollBeginDrag = (e): void => {
this._viewabilityHelper.recordInteraction();
this.props.onScrollBeginDrag && this.props.onScrollBeginDrag(e);
};
_onScrollEndDrag = (e): void => {
const {velocity} = e.nativeEvent;
if (velocity) {
this._scrollMetrics.velocity = this._selectOffset(velocity);
}
this._computeBlankness();
this.props.onScrollEndDrag && this.props.onScrollEndDrag(e);
};
_onMomentumScrollEnd = (e): void => {
this._scrollMetrics.velocity = 0;
this._computeBlankness();
this.props.onMomentumScrollEnd && this.props.onMomentumScrollEnd(e);
};
_updateCellsToRender = () => {
const {data, getItemCount, onEndReachedThreshold} = this.props;
const isVirtualizationDisabled = this._isVirtualizationDisabled();
this._updateViewableItems(data);
if (!data) {
return;
}
this.setState(state => {
let newState;
if (!isVirtualizationDisabled) {
// If we run this with bogus data, we'll force-render window {first: 0, last: 0},
// and wipe out the initialNumToRender rendered elements.
// So let's wait until the scroll view metrics have been set up. And until then,
// we will trust the initialNumToRender suggestion
if (this._scrollMetrics.visibleLength) {
// If we have a non-zero initialScrollIndex and run this before we've scrolled,
// we'll wipe out the initialNumToRender rendered elements starting at initialScrollIndex.
// So let's wait until we've scrolled the view to the right place. And until then,
// we will trust the initialScrollIndex suggestion.
if (!this.props.initialScrollIndex || this._scrollMetrics.offset) {
newState = computeWindowedRenderLimits(
this.props,
state,
this._getFrameMetricsApprox,
this._scrollMetrics,
);
}
}
} else {
const {contentLength, offset, visibleLength} = this._scrollMetrics;
const distanceFromEnd = contentLength - visibleLength - offset;
const renderAhead =
distanceFromEnd < onEndReachedThreshold * visibleLength
? this.props.maxToRenderPerBatch
: 0;
newState = {
first: 0,
last: Math.min(state.last + renderAhead, getItemCount(data) - 1),
};
}
return newState;
});
};
_createViewToken = (index: number, isViewable: boolean) => {
const {data, getItem, keyExtractor} = this.props;
const item = getItem(data, index);
invariant(item, 'Missing item for index ' + index);
return {index, item, key: keyExtractor(item, index), isViewable};
};
_getFrameMetricsApprox = (
index: number,
): {length: number, offset: number} => {
const frame = this._getFrameMetrics(index);
if (frame && frame.index === index) {
// check for invalid frames due to row re-ordering
return frame;
} else {
const {getItemLayout} = this.props;
invariant(
!getItemLayout,
'Should not have to estimate frames when a measurement metrics function is provided',
);
return {
length: this._averageCellLength,
offset: this._averageCellLength * index,
};
}
};
_getFrameMetrics = (
index: number,
): ?{
length: number,
offset: number,
index: number,
inLayout?: boolean,
} => {
const {
data,
getItem,
getItemCount,
getItemLayout,
keyExtractor,
} = this.props;
invariant(
getItemCount(data) > index,
'Tried to get frame for out of range index ' + index,
);
const item = getItem(data, index);
let frame = item && this._frames[keyExtractor(item, index)];
if (!frame || frame.index !== index) {
if (getItemLayout) {
frame = getItemLayout(data, index);
if (__DEV__) {
const frameType = PropTypes.shape({
length: PropTypes.number.isRequired,
offset: PropTypes.number.isRequired,
index: PropTypes.number.isRequired,
}).isRequired;
PropTypes.checkPropTypes(
{frame: frameType},
{frame},
'frame',
'VirtualizedList.getItemLayout',
);
}
}
}
return frame;
};
_updateViewableItems(data: any) {
const {getItemCount, onViewableItemsChanged} = this.props;
if (!onViewableItemsChanged) {
return;
}
this._viewabilityHelper.onUpdate(
getItemCount(data),
this._scrollMetrics.offset,
this._scrollMetrics.visibleLength,
this._getFrameMetrics,
this._createViewToken,
onViewableItemsChanged,
this.state,
);
}
}
class CellRenderer extends React.Component {
props: {
ItemSeparatorComponent: ?ReactClass<*>,
cellKey: string,
fillRateHelper: FillRateHelper,
index: number,
inversionStyle: ?StyleObj,
item: Item,
onLayout: (event: Object) => void, // This is extracted by ScrollViewStickyHeader
onUnmount: (cellKey: string) => void,
onUpdateSeparators: (cellKeys: Array<?string>, props: Object) => void,
parentProps: {
getItemLayout?: ?Function,
renderItem: renderItemType,
},
prevCellKey: ?string,
};
state = {
separatorProps: {
highlighted: false,
leadingItem: this.props.item,
},
};
// TODO: consider factoring separator stuff out of VirtualizedList into FlatList since it's not
// reused by SectionList and we can keep VirtualizedList simpler.
_separators = {
highlight: () => {
const {cellKey, prevCellKey} = this.props;
this.props.onUpdateSeparators([cellKey, prevCellKey], {
highlighted: true,
});
},
unhighlight: () => {
const {cellKey, prevCellKey} = this.props;
this.props.onUpdateSeparators([cellKey, prevCellKey], {
highlighted: false,
});
},
updateProps: (select: 'leading' | 'trailing', newProps: Object) => {
const {cellKey, prevCellKey} = this.props;
this.props.onUpdateSeparators(
[select === 'leading' ? prevCellKey : cellKey],
newProps,
);
},
};
updateSeparatorProps(newProps: Object) {
this.setState(state => ({
separatorProps: {...state.separatorProps, ...newProps},
}));
}
componentWillUnmount() {
this.props.onUnmount(this.props.cellKey);
}
render() {
const {
ItemSeparatorComponent,
fillRateHelper,
item,
index,
inversionStyle,
parentProps,
} = this.props;
const {renderItem, getItemLayout} = parentProps;
invariant(renderItem, 'no renderItem!');
const element = renderItem({
item,
index,
separators: this._separators,
});
const onLayout =
getItemLayout && !parentProps.debug && !fillRateHelper.enabled()
? undefined
: this.props.onLayout;
// NOTE: that when this is a sticky header, `onLayout` will get automatically extracted and
// called explicitly by `ScrollViewStickyHeader`.
return (
<View onLayout={onLayout} style={inversionStyle}>
{element}
{ItemSeparatorComponent &&
<ItemSeparatorComponent {...this.state.separatorProps} />}
</View>
);
}
}
const styles = StyleSheet.create({
verticallyInverted: {
transform: [{scaleY: -1}],
},
horizontallyInverted: {
transform: [{scaleX: -1}],
},
});
module.exports = VirtualizedList;