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Direktori : /var/www/html/node_modules/swiper/modules/mousewheel/ |
Current File : /var/www/html/node_modules/swiper/modules/mousewheel/mousewheel.js |
/* eslint-disable consistent-return */ import { getWindow } from 'ssr-window'; import $ from '../../shared/dom.js'; import { now, nextTick } from '../../shared/utils.js'; export default function Mousewheel(_ref) { let { swiper, extendParams, on, emit } = _ref; const window = getWindow(); extendParams({ mousewheel: { enabled: false, releaseOnEdges: false, invert: false, forceToAxis: false, sensitivity: 1, eventsTarget: 'container', thresholdDelta: null, thresholdTime: null } }); swiper.mousewheel = { enabled: false }; let timeout; let lastScrollTime = now(); let lastEventBeforeSnap; const recentWheelEvents = []; function normalize(e) { // Reasonable defaults const PIXEL_STEP = 10; const LINE_HEIGHT = 40; const PAGE_HEIGHT = 800; let sX = 0; let sY = 0; // spinX, spinY let pX = 0; let pY = 0; // pixelX, pixelY // Legacy if ('detail' in e) { sY = e.detail; } if ('wheelDelta' in e) { sY = -e.wheelDelta / 120; } if ('wheelDeltaY' in e) { sY = -e.wheelDeltaY / 120; } if ('wheelDeltaX' in e) { sX = -e.wheelDeltaX / 120; } // side scrolling on FF with DOMMouseScroll if ('axis' in e && e.axis === e.HORIZONTAL_AXIS) { sX = sY; sY = 0; } pX = sX * PIXEL_STEP; pY = sY * PIXEL_STEP; if ('deltaY' in e) { pY = e.deltaY; } if ('deltaX' in e) { pX = e.deltaX; } if (e.shiftKey && !pX) { // if user scrolls with shift he wants horizontal scroll pX = pY; pY = 0; } if ((pX || pY) && e.deltaMode) { if (e.deltaMode === 1) { // delta in LINE units pX *= LINE_HEIGHT; pY *= LINE_HEIGHT; } else { // delta in PAGE units pX *= PAGE_HEIGHT; pY *= PAGE_HEIGHT; } } // Fall-back if spin cannot be determined if (pX && !sX) { sX = pX < 1 ? -1 : 1; } if (pY && !sY) { sY = pY < 1 ? -1 : 1; } return { spinX: sX, spinY: sY, pixelX: pX, pixelY: pY }; } function handleMouseEnter() { if (!swiper.enabled) return; swiper.mouseEntered = true; } function handleMouseLeave() { if (!swiper.enabled) return; swiper.mouseEntered = false; } function animateSlider(newEvent) { if (swiper.params.mousewheel.thresholdDelta && newEvent.delta < swiper.params.mousewheel.thresholdDelta) { // Prevent if delta of wheel scroll delta is below configured threshold return false; } if (swiper.params.mousewheel.thresholdTime && now() - lastScrollTime < swiper.params.mousewheel.thresholdTime) { // Prevent if time between scrolls is below configured threshold return false; } // If the movement is NOT big enough and // if the last time the user scrolled was too close to the current one (avoid continuously triggering the slider): // Don't go any further (avoid insignificant scroll movement). if (newEvent.delta >= 6 && now() - lastScrollTime < 60) { // Return false as a default return true; } // If user is scrolling towards the end: // If the slider hasn't hit the latest slide or // if the slider is a loop and // if the slider isn't moving right now: // Go to next slide and // emit a scroll event. // Else (the user is scrolling towards the beginning) and // if the slider hasn't hit the first slide or // if the slider is a loop and // if the slider isn't moving right now: // Go to prev slide and // emit a scroll event. if (newEvent.direction < 0) { if ((!swiper.isEnd || swiper.params.loop) && !swiper.animating) { swiper.slideNext(); emit('scroll', newEvent.raw); } } else if ((!swiper.isBeginning || swiper.params.loop) && !swiper.animating) { swiper.slidePrev(); emit('scroll', newEvent.raw); } // If you got here is because an animation has been triggered so store the current time lastScrollTime = new window.Date().getTime(); // Return false as a default return false; } function releaseScroll(newEvent) { const params = swiper.params.mousewheel; if (newEvent.direction < 0) { if (swiper.isEnd && !swiper.params.loop && params.releaseOnEdges) { // Return true to animate scroll on edges return true; } } else if (swiper.isBeginning && !swiper.params.loop && params.releaseOnEdges) { // Return true to animate scroll on edges return true; } return false; } function handle(event) { let e = event; let disableParentSwiper = true; if (!swiper.enabled) return; const params = swiper.params.mousewheel; if (swiper.params.cssMode) { e.preventDefault(); } let target = swiper.$el; if (swiper.params.mousewheel.eventsTarget !== 'container') { target = $(swiper.params.mousewheel.eventsTarget); } if (!swiper.mouseEntered && !target[0].contains(e.target) && !params.releaseOnEdges) return true; if (e.originalEvent) e = e.originalEvent; // jquery fix let delta = 0; const rtlFactor = swiper.rtlTranslate ? -1 : 1; const data = normalize(e); if (params.forceToAxis) { if (swiper.isHorizontal()) { if (Math.abs(data.pixelX) > Math.abs(data.pixelY)) delta = -data.pixelX * rtlFactor;else return true; } else if (Math.abs(data.pixelY) > Math.abs(data.pixelX)) delta = -data.pixelY;else return true; } else { delta = Math.abs(data.pixelX) > Math.abs(data.pixelY) ? -data.pixelX * rtlFactor : -data.pixelY; } if (delta === 0) return true; if (params.invert) delta = -delta; // Get the scroll positions let positions = swiper.getTranslate() + delta * params.sensitivity; if (positions >= swiper.minTranslate()) positions = swiper.minTranslate(); if (positions <= swiper.maxTranslate()) positions = swiper.maxTranslate(); // When loop is true: // the disableParentSwiper will be true. // When loop is false: // if the scroll positions is not on edge, // then the disableParentSwiper will be true. // if the scroll on edge positions, // then the disableParentSwiper will be false. disableParentSwiper = swiper.params.loop ? true : !(positions === swiper.minTranslate() || positions === swiper.maxTranslate()); if (disableParentSwiper && swiper.params.nested) e.stopPropagation(); if (!swiper.params.freeMode || !swiper.params.freeMode.enabled) { // Register the new event in a variable which stores the relevant data const newEvent = { time: now(), delta: Math.abs(delta), direction: Math.sign(delta), raw: event }; // Keep the most recent events if (recentWheelEvents.length >= 2) { recentWheelEvents.shift(); // only store the last N events } const prevEvent = recentWheelEvents.length ? recentWheelEvents[recentWheelEvents.length - 1] : undefined; recentWheelEvents.push(newEvent); // If there is at least one previous recorded event: // If direction has changed or // if the scroll is quicker than the previous one: // Animate the slider. // Else (this is the first time the wheel is moved): // Animate the slider. if (prevEvent) { if (newEvent.direction !== prevEvent.direction || newEvent.delta > prevEvent.delta || newEvent.time > prevEvent.time + 150) { animateSlider(newEvent); } } else { animateSlider(newEvent); } // If it's time to release the scroll: // Return now so you don't hit the preventDefault. if (releaseScroll(newEvent)) { return true; } } else { // Freemode or scrollContainer: // If we recently snapped after a momentum scroll, then ignore wheel events // to give time for the deceleration to finish. Stop ignoring after 500 msecs // or if it's a new scroll (larger delta or inverse sign as last event before // an end-of-momentum snap). const newEvent = { time: now(), delta: Math.abs(delta), direction: Math.sign(delta) }; const ignoreWheelEvents = lastEventBeforeSnap && newEvent.time < lastEventBeforeSnap.time + 500 && newEvent.delta <= lastEventBeforeSnap.delta && newEvent.direction === lastEventBeforeSnap.direction; if (!ignoreWheelEvents) { lastEventBeforeSnap = undefined; if (swiper.params.loop) { swiper.loopFix(); } let position = swiper.getTranslate() + delta * params.sensitivity; const wasBeginning = swiper.isBeginning; const wasEnd = swiper.isEnd; if (position >= swiper.minTranslate()) position = swiper.minTranslate(); if (position <= swiper.maxTranslate()) position = swiper.maxTranslate(); swiper.setTransition(0); swiper.setTranslate(position); swiper.updateProgress(); swiper.updateActiveIndex(); swiper.updateSlidesClasses(); if (!wasBeginning && swiper.isBeginning || !wasEnd && swiper.isEnd) { swiper.updateSlidesClasses(); } if (swiper.params.freeMode.sticky) { // When wheel scrolling starts with sticky (aka snap) enabled, then detect // the end of a momentum scroll by storing recent (N=15?) wheel events. // 1. do all N events have decreasing or same (absolute value) delta? // 2. did all N events arrive in the last M (M=500?) msecs? // 3. does the earliest event have an (absolute value) delta that's // at least P (P=1?) larger than the most recent event's delta? // 4. does the latest event have a delta that's smaller than Q (Q=6?) pixels? // If 1-4 are "yes" then we're near the end of a momentum scroll deceleration. // Snap immediately and ignore remaining wheel events in this scroll. // See comment above for "remaining wheel events in this scroll" determination. // If 1-4 aren't satisfied, then wait to snap until 500ms after the last event. clearTimeout(timeout); timeout = undefined; if (recentWheelEvents.length >= 15) { recentWheelEvents.shift(); // only store the last N events } const prevEvent = recentWheelEvents.length ? recentWheelEvents[recentWheelEvents.length - 1] : undefined; const firstEvent = recentWheelEvents[0]; recentWheelEvents.push(newEvent); if (prevEvent && (newEvent.delta > prevEvent.delta || newEvent.direction !== prevEvent.direction)) { // Increasing or reverse-sign delta means the user started scrolling again. Clear the wheel event log. recentWheelEvents.splice(0); } else if (recentWheelEvents.length >= 15 && newEvent.time - firstEvent.time < 500 && firstEvent.delta - newEvent.delta >= 1 && newEvent.delta <= 6) { // We're at the end of the deceleration of a momentum scroll, so there's no need // to wait for more events. Snap ASAP on the next tick. // Also, because there's some remaining momentum we'll bias the snap in the // direction of the ongoing scroll because it's better UX for the scroll to snap // in the same direction as the scroll instead of reversing to snap. Therefore, // if it's already scrolled more than 20% in the current direction, keep going. const snapToThreshold = delta > 0 ? 0.8 : 0.2; lastEventBeforeSnap = newEvent; recentWheelEvents.splice(0); timeout = nextTick(() => { swiper.slideToClosest(swiper.params.speed, true, undefined, snapToThreshold); }, 0); // no delay; move on next tick } if (!timeout) { // if we get here, then we haven't detected the end of a momentum scroll, so // we'll consider a scroll "complete" when there haven't been any wheel events // for 500ms. timeout = nextTick(() => { const snapToThreshold = 0.5; lastEventBeforeSnap = newEvent; recentWheelEvents.splice(0); swiper.slideToClosest(swiper.params.speed, true, undefined, snapToThreshold); }, 500); } } // Emit event if (!ignoreWheelEvents) emit('scroll', e); // Stop autoplay if (swiper.params.autoplay && swiper.params.autoplayDisableOnInteraction) swiper.autoplay.stop(); // Return page scroll on edge positions if (position === swiper.minTranslate() || position === swiper.maxTranslate()) return true; } } if (e.preventDefault) e.preventDefault();else e.returnValue = false; return false; } function events(method) { let target = swiper.$el; if (swiper.params.mousewheel.eventsTarget !== 'container') { target = $(swiper.params.mousewheel.eventsTarget); } target[method]('mouseenter', handleMouseEnter); target[method]('mouseleave', handleMouseLeave); target[method]('wheel', handle); } function enable() { if (swiper.params.cssMode) { swiper.wrapperEl.removeEventListener('wheel', handle); return true; } if (swiper.mousewheel.enabled) return false; events('on'); swiper.mousewheel.enabled = true; return true; } function disable() { if (swiper.params.cssMode) { swiper.wrapperEl.addEventListener(event, handle); return true; } if (!swiper.mousewheel.enabled) return false; events('off'); swiper.mousewheel.enabled = false; return true; } on('init', () => { if (!swiper.params.mousewheel.enabled && swiper.params.cssMode) { disable(); } if (swiper.params.mousewheel.enabled) enable(); }); on('destroy', () => { if (swiper.params.cssMode) { enable(); } if (swiper.mousewheel.enabled) disable(); }); Object.assign(swiper.mousewheel, { enable, disable }); }