import _toConsumableArray from 'babel-runtime/helpers/toConsumableArray'; import { findDOMNode } from 'react-dom'; export function isEventFromHandle(e, handles) { return Object.keys(handles).some(function (key) { return e.target === findDOMNode(handles[key]); }); } export function isValueOutOfRange(value, _ref) { var min = _ref.min, max = _ref.max; return value < min || value > max; } export function isNotTouchEvent(e) { return e.touches.length > 1 || e.type.toLowerCase() === 'touchend' && e.touches.length > 0; } export function getClosestPoint(val, _ref2) { var marks = _ref2.marks, step = _ref2.step, min = _ref2.min; var points = Object.keys(marks).map(parseFloat); if (step !== null) { var closestStep = Math.round((val - min) / step) * step + min; points.push(closestStep); } var diffs = points.map(function (point) { return Math.abs(val - point); }); return points[diffs.indexOf(Math.min.apply(Math, _toConsumableArray(diffs)))]; } export function getPrecision(step) { var stepString = step.toString(); var precision = 0; if (stepString.indexOf('.') >= 0) { precision = stepString.length - stepString.indexOf('.') - 1; } return precision; } export function getMousePosition(vertical, e) { return vertical ? e.clientY : e.pageX; } export function getTouchPosition(vertical, e) { return vertical ? e.touches[0].clientY : e.touches[0].pageX; } export function getHandleCenterPosition(vertical, handle) { var coords = handle.getBoundingClientRect(); return vertical ? coords.top + coords.height * 0.5 : coords.left + coords.width * 0.5; } export function ensureValueInRange(val, _ref3) { var max = _ref3.max, min = _ref3.min; if (val <= min) { return min; } if (val >= max) { return max; } return val; } export function ensureValuePrecision(val, props) { var step = props.step; var closestPoint = getClosestPoint(val, props); return step === null ? closestPoint : parseFloat(closestPoint.toFixed(getPrecision(step))); } export function pauseEvent(e) { e.stopPropagation(); e.preventDefault(); }