/* eslint-disable */ /* This is taken from https://github.com/reactjs/react-autocomplete We aren't using that component because (for now) there is no way to autohightlight the first item if it isn't an exact match from what is in the search bar. Our use case is: value in search bar: "hello" first suggestion: "lbry://hello" I changed the function maybeAutoCompleteText to check if the suggestion contains the search query anywhere, instead of the suggestion starting with it https://github.com/reactjs/react-autocomplete/issues/239 */ import React from 'react'; import { findDOMNode } from 'react-dom'; import scrollIntoView from 'dom-scroll-into-view'; const IMPERATIVE_API = [ 'blur', 'checkValidity', 'click', 'focus', 'select', 'setCustomValidity', 'setSelectionRange', 'setRangeText', ]; function getScrollOffset() { return { x: window.pageXOffset !== undefined ? window.pageXOffset : (document.documentElement || document.body.parentNode || document.body).scrollLeft, y: window.pageYOffset !== undefined ? window.pageYOffset : (document.documentElement || document.body.parentNode || document.body).scrollTop, }; } export default class Autocomplete extends React.Component { // static propTypes = { // /** // * The items to display in the dropdown menu // */ // items: PropTypes.array.isRequired, // /** // * The value to display in the input field // */ // value: PropTypes.any, // /** // * Arguments: `event: Event, value: String` // * // * Invoked every time the user changes the input's value. // */ // onChange: PropTypes.func, // /** // * Arguments: `value: String, item: Any` // * // * Invoked when the user selects an item from the dropdown menu. // */ // onSelect: PropTypes.func, // /** // * Arguments: `item: Any, value: String` // * // * Invoked for each entry in `items` and its return value is used to // * determine whether or not it should be displayed in the dropdown menu. // * By default all items are always rendered. // */ // shouldItemRender: PropTypes.func, // /** // * Arguments: `itemA: Any, itemB: Any, value: String` // * // * The function which is used to sort `items` before display. // */ // sortItems: PropTypes.func, // /** // * Arguments: `item: Any` // * // * Used to read the display value from each entry in `items`. // */ // getItemValue: PropTypes.func.isRequired, // /** // * Arguments: `item: Any, isHighlighted: Boolean, styles: Object` // * // * Invoked for each entry in `items` that also passes `shouldItemRender` to // * generate the render tree for each item in the dropdown menu. `styles` is // * an optional set of styles that can be applied to improve the look/feel // * of the items in the dropdown menu. // */ // renderItem: PropTypes.func.isRequired, // /** // * Arguments: `items: Array, value: String, styles: Object` // * // * Invoked to generate the render tree for the dropdown menu. Ensure the // * returned tree includes every entry in `items` or else the highlight order // * and keyboard navigation logic will break. `styles` will contain // * { top, left, minWidth } which are the coordinates of the top-left corner // * and the width of the dropdown menu. // */ // renderMenu: PropTypes.func, // /** // * Styles that are applied to the dropdown menu in the default `renderMenu` // * implementation. If you override `renderMenu` and you want to use // * `menuStyle` you must manually apply them (`this.props.menuStyle`). // */ // menuStyle: PropTypes.object, // /** // * Arguments: `props: Object` // * // * Invoked to generate the input element. The `props` argument is the result // * of merging `props.inputProps` with a selection of props that are required // * both for functionality and accessibility. At the very least you need to // * apply `props.ref` and all `props.on` event handlers. Failing to do // * this will cause `Autocomplete` to behave unexpectedly. // */ // renderInput: PropTypes.func, // /** // * Props passed to `props.renderInput`. By default these props will be // * applied to the `` element rendered by `Autocomplete`, unless you // * have specified a custom value for `props.renderInput`. Any properties // * supported by `HTMLInputElement` can be specified, apart from the // * following which are set by `Autocomplete`: value, autoComplete, role, // * aria-autocomplete. `inputProps` is commonly used for (but not limited to) // * placeholder, event handlers (onFocus, onBlur, etc.), autoFocus, etc.. // */ // inputProps: PropTypes.object, // /** // * Props that are applied to the element which wraps the `` and // * dropdown menu elements rendered by `Autocomplete`. // */ // wrapperProps: PropTypes.object, // /** // * This is a shorthand for `wrapperProps={{ style: }}`. // * Note that `wrapperStyle` is applied before `wrapperProps`, so the latter // * will win if it contains a `style` entry. // */ // wrapperStyle: PropTypes.object, // /** // * Whether or not to automatically highlight the top match in the dropdown // * menu. // */ // autoHighlight: PropTypes.bool, // /** // * Whether or not to automatically select the highlighted item when the // * `` loses focus. // */ // selectOnBlur: PropTypes.bool, // /** // * Arguments: `isOpen: Boolean` // * // * Invoked every time the dropdown menu's visibility changes (i.e. every // * time it is displayed/hidden). // */ // onMenuVisibilityChange: PropTypes.func, // /** // * Used to override the internal logic which displays/hides the dropdown // * menu. This is useful if you want to force a certain state based on your // * UX/business logic. Use it together with `onMenuVisibilityChange` for // * fine-grained control over the dropdown menu dynamics. // */ // open: PropTypes.bool, // debug: PropTypes.bool, // }; static defaultProps = { value: '', wrapperProps: {}, wrapperStyle: { display: 'inline-block', }, inputProps: {}, renderInput(props) { return ; }, onChange() {}, onSelect() {}, renderMenu(items, value, style) { return
; }, menuStyle: { position: 'absolute', overflow: 'hidden', }, autoHighlight: true, selectOnBlur: false, onMenuVisibilityChange() {}, }; constructor(props) { super(props); this.state = { isOpen: false, highlightedIndex: null, }; this._debugStates = []; this.ensureHighlightedIndex = this.ensureHighlightedIndex.bind(this); this.exposeAPI = this.exposeAPI.bind(this); this.handleInputFocus = this.handleInputFocus.bind(this); this.handleInputBlur = this.handleInputBlur.bind(this); this.handleChange = this.handleChange.bind(this); this.handleKeyDown = this.handleKeyDown.bind(this); this.handleInputClick = this.handleInputClick.bind(this); this.maybeAutoCompleteText = this.maybeAutoCompleteText.bind(this); } UNSAFE_componentWillMount() { // this.refs is frozen, so we need to assign a new object to it this.refs = {}; this._ignoreBlur = false; this._ignoreFocus = false; this._scrollOffset = null; this._scrollTimer = null; } componentWillUnmount() { clearTimeout(this._scrollTimer); this._scrollTimer = null; } UNSAFE_componentWillReceiveProps(nextProps) { if (this.state.highlightedIndex !== null) { this.setState(this.ensureHighlightedIndex); } if (nextProps.autoHighlight && (this.props.value !== nextProps.value || this.state.highlightedIndex === null)) { this.setState(this.maybeAutoCompleteText); } } componentDidMount() { if (this.isOpen()) { this.setMenuPositions(); } } componentDidUpdate(prevProps, prevState) { if ((this.state.isOpen && !prevState.isOpen) || ('open' in this.props && this.props.open && !prevProps.open)) { this.setMenuPositions(); } this.maybeScrollItemIntoView(); if (prevState.isOpen !== this.state.isOpen) { this.props.onMenuVisibilityChange(this.state.isOpen); } } exposeAPI(el) { this.refs.input = el; IMPERATIVE_API.forEach(ev => (this[ev] = el && el[ev] && el[ev].bind(el))); } maybeScrollItemIntoView() { if (this.isOpen() && this.state.highlightedIndex !== null) { const itemNode = this.refs[`item-${this.state.highlightedIndex}`]; const menuNode = this.refs.menu; scrollIntoView(findDOMNode(itemNode), findDOMNode(menuNode), { onlyScrollIfNeeded: true, }); } } handleKeyDown(event) { if (Autocomplete.keyDownHandlers[event.key]) { Autocomplete.keyDownHandlers[event.key].call(this, event); } else if (!this.isOpen()) { this.setState({ isOpen: true, }); } } handleChange(event) { this.props.onChange(event, event.target.value); } static keyDownHandlers = { ArrowDown(event) { event.preventDefault(); const itemsLength = this.getFilteredItems(this.props).length; if (!itemsLength) return; const { highlightedIndex } = this.state; const index = highlightedIndex === null || highlightedIndex === itemsLength - 1 ? 0 : highlightedIndex + 1; this.setState({ highlightedIndex: index, isOpen: true, }); }, ArrowUp(event) { event.preventDefault(); const itemsLength = this.getFilteredItems(this.props).length; if (!itemsLength) return; const { highlightedIndex } = this.state; const index = highlightedIndex === 0 || highlightedIndex === null ? itemsLength - 1 : highlightedIndex - 1; this.setState({ highlightedIndex: index, isOpen: true, }); }, Enter(event) { // Key code 229 is used for selecting items from character selectors (Pinyin, Kana, etc) if (event.keyCode !== 13) return; const inputValue = this.refs.input.value; if (!inputValue) return; if (!this.isOpen() || this.state.highlightedIndex == null) { // User pressed enter before any search suggestions were populated this.setState({ isOpen: false }, () => { this.props.onSelect(inputValue); this.refs.input.blur(); }); } else { // text entered + menu item has been highlighted + enter is hit -> update value to that of selected menu item, close the menu event.preventDefault(); const item = this.getFilteredItems(this.props)[this.state.highlightedIndex]; const value = this.props.getItemValue(item); this.setState( { isOpen: false, highlightedIndex: null, }, () => { this.props.onSelect(value, item); this.refs.input.blur(); } ); } }, Escape() { // In case the user is currently hovering over the menu this.setIgnoreBlur(false); this.setState({ highlightedIndex: null, isOpen: false, }); }, Tab() { // In case the user is currently hovering over the menu this.setIgnoreBlur(false); }, }; getFilteredItems(props) { let items = props.items; if (props.shouldItemRender) { items = items.filter(item => props.shouldItemRender(item, props.value)); } if (props.sortItems) { items.sort((a, b) => props.sortItems(a, b, props.value)); } return items; } maybeAutoCompleteText(state, props) { const { highlightedIndex } = state; const { value, getItemValue } = props; const index = highlightedIndex === null ? 0 : highlightedIndex; const matchedItem = this.getFilteredItems(props)[index]; if (value !== '' && matchedItem) { const itemValue = getItemValue(matchedItem); const itemValueDoesMatch = itemValue.toLowerCase().includes( value.toLowerCase() // below line is the the only thing that is changed from the real component ); if (itemValueDoesMatch) { return { highlightedIndex: index }; } } return { highlightedIndex: null }; } ensureHighlightedIndex(state, props) { if (state.highlightedIndex >= this.getFilteredItems(props).length) { return { highlightedIndex: null }; } } setMenuPositions() { const node = this.refs.input; const rect = node.getBoundingClientRect(); const computedStyle = global.window.getComputedStyle(node); // const marginBottom = parseInt(computedStyle.marginBottom, 10) || 0; const marginLeft = parseInt(computedStyle.marginLeft, 10) || 0; const marginRight = parseInt(computedStyle.marginRight, 10) || 0; this.setState({ // We may need these if we go back to a fixed header // menuTop: rect.bottom + marginBottom, // menuLeft: rect.left + marginLeft, menuWidth: rect.width + marginLeft + marginRight, }); } highlightItemFromMouse(index) { this.setState({ highlightedIndex: index }); } selectItemFromMouse(item) { const value = this.props.getItemValue(item); // The menu will de-render before a mouseLeave event // happens. Clear the flag to release control over focus this.setIgnoreBlur(false); this.setState( { isOpen: false, highlightedIndex: null, }, () => { this.props.onSelect(value, item); } ); } setIgnoreBlur(ignore) { this._ignoreBlur = ignore; } renderMenu() { if (!this.props.value) { return null; } const items = this.getFilteredItems(this.props).map((item, index) => { const element = this.props.renderItem(item, this.state.highlightedIndex === index, { cursor: 'default', }); return React.cloneElement(element, { onMouseEnter: () => this.highlightItemFromMouse(index), onClick: () => this.selectItemFromMouse(item), ref: e => (this.refs[`item-${index}`] = e), }); }); const style = { left: this.state.menuLeft, top: this.state.menuTop, minWidth: this.state.menuWidth, }; const menu = this.props.renderMenu(items, this.props.value, style); return React.cloneElement(menu, { ref: e => (this.refs.menu = e), className: 'wunderbar__menu', // Ignore blur to prevent menu from de-rendering before we can process click onMouseEnter: () => this.setIgnoreBlur(true), onMouseLeave: () => this.setIgnoreBlur(false), // uncomment this to inspect styling }); } handleInputBlur(event) { if (this._ignoreBlur) { this._ignoreFocus = true; this._scrollOffset = getScrollOffset(); this.refs.input.focus(); return; } let setStateCallback; const { highlightedIndex } = this.state; if (this.props.selectOnBlur && highlightedIndex !== null) { const items = this.getFilteredItems(this.props); const item = items[highlightedIndex]; const value = this.props.getItemValue(item); setStateCallback = () => this.props.onSelect(value, item); } this.setState( { isOpen: false, highlightedIndex: null, }, setStateCallback ); const { onBlur } = this.props.inputProps; if (onBlur) { onBlur(event); } } handleInputFocus(event) { if (this._ignoreFocus) { this._ignoreFocus = false; const { x, y } = this._scrollOffset; this._scrollOffset = null; // Focus will cause the browser to scroll the into view. // This can cause the mouse coords to change, which in turn // could cause a new highlight to happen, cancelling the click // event (when selecting with the mouse) window.scrollTo(x, y); // Some browsers wait until all focus event handlers have been // processed before scrolling the into view, so let's // scroll again on the next tick to ensure we're back to where // the user was before focus was lost. We could do the deferred // scroll only, but that causes a jarring split second jump in // some browsers that scroll before the focus event handlers // are triggered. clearTimeout(this._scrollTimer); this._scrollTimer = setTimeout(() => { this._scrollTimer = null; window.scrollTo(x, y); }, 0); return; } // Highlight this.refs.input.select(); this.setState({ isOpen: true }); const { onFocus } = this.props.inputProps; if (onFocus) { onFocus(event); } } isInputFocused() { const el = this.refs.input; return el.ownerDocument && el === el.ownerDocument.activeElement; } handleInputClick() { // Input will not be focused if it's disabled if (this.isInputFocused() && !this.isOpen()) this.setState({ isOpen: true }); } composeEventHandlers(internal, external) { return external ? e => { internal(e); external(e); } : internal; } isOpen() { return 'open' in this.props ? this.props.open : this.state.isOpen; } render() { if (this.props.debug) { // you don't like it, you love it this._debugStates.push({ id: this._debugStates.length, state: this.state, }); } const { inputProps, items } = this.props; const open = this.isOpen(); return (
{this.props.renderInput({ ...inputProps, role: 'combobox', 'aria-autocomplete': 'list', 'aria-expanded': open, autoComplete: 'off', ref: this.exposeAPI, onFocus: this.handleInputFocus, onBlur: this.handleInputBlur, onChange: this.handleChange, onKeyDown: this.composeEventHandlers(this.handleKeyDown, inputProps.onKeyDown), onClick: this.composeEventHandlers(this.handleInputClick, inputProps.onClick), value: this.props.value, })} {open && !!items.length && this.renderMenu()} {this.props.debug && (
            {JSON.stringify(
              this._debugStates.slice(Math.max(0, this._debugStates.length - 5), this._debugStates.length),
              null,
              2
            )}
          
)}
); } } /* eslint-enable */