react-native/Libraries/Components/ScrollView/ScrollViewStickyHeader.js

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/**
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*
* @flow
* @format
*/
'use strict';
const AnimatedImplementation = require('AnimatedImplementation');
const React = require('React');
const StyleSheet = require('StyleSheet');
const View = require('View');
import type {LayoutEvent} from 'CoreEventTypes';
const AnimatedView = AnimatedImplementation.createAnimatedComponent(View);
type Props = {
children?: React.Element<any>,
support sticky headers Summary: This adds support for both automagical sticky section headers in `SectionList` as well as the more free-form `stickyHeaderIndices` on `FlatList` or `VirtualizedList`. The basic concept is to take the initial `stickySectionHeaders` and remap them to the indices corresponding to the mounted subset in the render window. The main trick here is that the currently stuck header might itself be outside of the render window, so we need to search the gap to see if that's the case and render it (with spacers above and below it instead of one big spacer). In the `SectionList` we simply pre-compute the sticky headers at the same time as when we scan the sections to determine the flattened length and pass those to `VirtualizedList`. This also requires some updates to `ScrollView` to work in the churny environment of `VirtualizedList`. We propogate the keys on the children to the animated wrappers so that as items are removed and the indices of the remaining items change, react can keep proper track of them. We also fix the scroll back case where new headers are rendered from the top down and aren't updated with the `setNextLayoutY` callback because the `onLayout` call for the next header happened before it was mounted. This is done by just tracking all the layout values in a map and providing them to the sticky components at render time. This might also improve perf a little by property configuring the animations syncronously instead of waiting for the `onLayout` callback. We also need to protect against stale onLayout callbacks and other fun stuff. == Test Plan == https://www.facebook.com/groups/react.native.community/permalink/940332509435661/ Scroll a lot with and without debug mode on. Make sure spinner still spins and there are no crashes (lots of crashes during development due to the animated configuration being non-monotonic if anything stale values get through). Also made sure that tapping a row to change it's height would properly update the animation configurations so the collision point would still be correct. Reviewed By: yungsters Differential Revision: D4695065 fbshipit-source-id: 855c4e31c8f8b450d32150dbdb2e07f1a9f9f98e
2017-03-22 05:19:03 +00:00
nextHeaderLayoutY: ?number,
onLayout: (event: LayoutEvent) => void,
scrollAnimatedValue: AnimatedImplementation.Value,
// Will cause sticky headers to stick at the bottom of the ScrollView instead
// of the top.
inverted: ?boolean,
// The height of the parent ScrollView. Currently only set when inverted.
scrollViewHeight: ?number,
};
type State = {
measured: boolean,
layoutY: number,
layoutHeight: number,
nextHeaderLayoutY: ?number,
};
class ScrollViewStickyHeader extends React.Component<Props, State> {
state = {
measured: false,
layoutY: 0,
layoutHeight: 0,
nextHeaderLayoutY: this.props.nextHeaderLayoutY,
};
support sticky headers Summary: This adds support for both automagical sticky section headers in `SectionList` as well as the more free-form `stickyHeaderIndices` on `FlatList` or `VirtualizedList`. The basic concept is to take the initial `stickySectionHeaders` and remap them to the indices corresponding to the mounted subset in the render window. The main trick here is that the currently stuck header might itself be outside of the render window, so we need to search the gap to see if that's the case and render it (with spacers above and below it instead of one big spacer). In the `SectionList` we simply pre-compute the sticky headers at the same time as when we scan the sections to determine the flattened length and pass those to `VirtualizedList`. This also requires some updates to `ScrollView` to work in the churny environment of `VirtualizedList`. We propogate the keys on the children to the animated wrappers so that as items are removed and the indices of the remaining items change, react can keep proper track of them. We also fix the scroll back case where new headers are rendered from the top down and aren't updated with the `setNextLayoutY` callback because the `onLayout` call for the next header happened before it was mounted. This is done by just tracking all the layout values in a map and providing them to the sticky components at render time. This might also improve perf a little by property configuring the animations syncronously instead of waiting for the `onLayout` callback. We also need to protect against stale onLayout callbacks and other fun stuff. == Test Plan == https://www.facebook.com/groups/react.native.community/permalink/940332509435661/ Scroll a lot with and without debug mode on. Make sure spinner still spins and there are no crashes (lots of crashes during development due to the animated configuration being non-monotonic if anything stale values get through). Also made sure that tapping a row to change it's height would properly update the animation configurations so the collision point would still be correct. Reviewed By: yungsters Differential Revision: D4695065 fbshipit-source-id: 855c4e31c8f8b450d32150dbdb2e07f1a9f9f98e
2017-03-22 05:19:03 +00:00
setNextHeaderY(y: number) {
this.setState({nextHeaderLayoutY: y});
}
_onLayout = event => {
this.setState({
measured: true,
layoutY: event.nativeEvent.layout.y,
layoutHeight: event.nativeEvent.layout.height,
});
this.props.onLayout(event);
const child = React.Children.only(this.props.children);
if (child.props.onLayout) {
child.props.onLayout(event);
}
};
render() {
const {inverted, scrollViewHeight} = this.props;
const {measured, layoutHeight, layoutY, nextHeaderLayoutY} = this.state;
const inputRange: Array<number> = [-1, 0];
const outputRange: Array<number> = [0, 0];
if (measured) {
if (inverted) {
// The interpolation looks like:
// - Negative scroll: no translation
// - `stickStartPoint` is the point at which the header will start sticking.
// It is calculated using the ScrollView viewport height so it is a the bottom.
// - Headers that are in the initial viewport will never stick, `stickStartPoint`
// will be negative.
// - From 0 to `stickStartPoint` no translation. This will cause the header
// to scroll normally until it reaches the top of the scroll view.
// - From `stickStartPoint` to when the next header y hits the bottom edge of the header: translate
// equally to scroll. This will cause the header to stay at the top of the scroll view.
// - Past the collision with the next header y: no more translation. This will cause the
// header to continue scrolling up and make room for the next sticky header.
// In the case that there is no next header just translate equally to
// scroll indefinitely.
if (scrollViewHeight != null) {
const stickStartPoint = layoutY + layoutHeight - scrollViewHeight;
if (stickStartPoint > 0) {
inputRange.push(stickStartPoint);
outputRange.push(0);
inputRange.push(stickStartPoint + 1);
outputRange.push(1);
// If the next sticky header has not loaded yet (probably windowing) or is the last
// we can just keep it sticked forever.
const collisionPoint =
(nextHeaderLayoutY || 0) - layoutHeight - scrollViewHeight;
if (collisionPoint > stickStartPoint) {
inputRange.push(collisionPoint, collisionPoint + 1);
outputRange.push(
collisionPoint - stickStartPoint,
collisionPoint - stickStartPoint,
);
}
}
}
} else {
// The interpolation looks like:
// - Negative scroll: no translation
// - From 0 to the y of the header: no translation. This will cause the header
// to scroll normally until it reaches the top of the scroll view.
// - From header y to when the next header y hits the bottom edge of the header: translate
// equally to scroll. This will cause the header to stay at the top of the scroll view.
// - Past the collision with the next header y: no more translation. This will cause the
// header to continue scrolling up and make room for the next sticky header.
// In the case that there is no next header just translate equally to
// scroll indefinitely.
inputRange.push(layoutY);
outputRange.push(0);
// If the next sticky header has not loaded yet (probably windowing) or is the last
// we can just keep it sticked forever.
const collisionPoint = (nextHeaderLayoutY || 0) - layoutHeight;
if (collisionPoint >= layoutY) {
inputRange.push(collisionPoint, collisionPoint + 1);
outputRange.push(collisionPoint - layoutY, collisionPoint - layoutY);
} else {
inputRange.push(layoutY + 1);
outputRange.push(1);
}
}
}
const translateY = this.props.scrollAnimatedValue.interpolate({
inputRange,
outputRange,
});
const child = React.Children.only(this.props.children);
return (
<AnimatedView
collapsable={false}
onLayout={this._onLayout}
style={[child.props.style, styles.header, {transform: [{translateY}]}]}>
{React.cloneElement(child, {
style: styles.fill, // We transfer the child style to the wrapper.
onLayout: undefined, // we call this manually through our this._onLayout
})}
</AnimatedView>
);
}
}
const styles = StyleSheet.create({
header: {
zIndex: 10,
},
fill: {
flex: 1,
},
});
module.exports = ScrollViewStickyHeader;