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[SNOLAB] Google Calendar keyboard enhance

^】Google日历键盘增强,雪星自用,功能:双击复制日程视图里的文本内容, Alt+hjkl 移动日程

// ==UserScript==
// @name         [SNOLAB] Google Calendar keyboard enhance
// @name:zh      [SNOLAB] Google 日历键盘操作增强
// @namespace    https://userscript.snomiao.com/
// @version      0.1.0
// @description   ^】Google日历键盘增强,雪星自用,功能:双击复制日程视图里的文本内容, Alt+hjkl 移动日程
// @author       snomiao@gmail.com
// @match        *://calendar.google.com/*
// @grant        none
// ==/UserScript==
//
//  1. event move enhance
//      - date time input change
//      - event drag
//  2. journal view text copy for the day-summary
//

/* eslint-disable */

// clipboardy/browser
var clipboard = {};
clipboard.write = async (text) => {
  await navigator.clipboard.writeText(text);
};
clipboard.read = async () => navigator.clipboard.readText();
clipboard.readSync = () => {
  throw new Error("`.readSync()` is not supported in browsers!");
};
clipboard.writeSync = () => {
  throw new Error("`.writeSync()` is not supported in browsers!");
};
var browser_default = clipboard;

// hotkey-mapper
var { keys } = Object;
function mapObject(fn, obj) {
  if (arguments.length === 1) {
    return (_obj) => mapObject(fn, _obj);
  }
  let index = 0;
  const objKeys = keys(obj);
  const len = objKeys.length;
  const willReturn = {};
  while (index < len) {
    const key = objKeys[index];
    willReturn[key] = fn(
      obj[key],
      key,
      obj
    );
    index++;
  }
  return willReturn;
}
var mapObjIndexed = mapObject;
function hotkeyMapper(mapping, on = "keydown", options) {
  const handler = (event) => {
    const mainKey = `${event.code.replace(/^Key/, "").toLowerCase()}Key`;
    event[mainKey] = true;
    const mods = "meta+alt+shift+ctrl";
    mapObjIndexed((fn, hotkey) => {
      const conds = `${mods}+${hotkey.toLowerCase()}`.replace(/win|command|search/, "meta").replace(/control/, "ctrl").split("+").map((k, i) => [k, Boolean(i >= 4) === Boolean(event[`${k}Key`])]);
      if (!Object.entries(Object.fromEntries(conds)).every(([, ok]) => ok))
        return;
      event.stopPropagation(), event.preventDefault();
      return fn(event);
    }, mapping);
  };
  window.addEventListener(on, handler, options);
  return function unload() {
    window.removeEventListener(on, handler, options);
  };
}

// rambda
var cloneList = (list) => Array.prototype.slice.call(list);
function curry(fn, args = []) {
  return (..._args) => ((rest) => rest.length >= fn.length ? fn(...rest) : curry(fn, rest))([...args, ..._args]);
}
function adjustFn(index, replaceFn2, list) {
  const actualIndex = index < 0 ? list.length + index : index;
  if (index >= list.length || actualIndex < 0)
    return list;
  const clone = cloneList(list);
  clone[actualIndex] = replaceFn2(clone[actualIndex]);
  return clone;
}
var adjust = curry(adjustFn);
function always(x) {
  return (_) => x;
}
var {
  isArray
} = Array;
function assocFn(prop2, newValue, obj) {
  return Object.assign({}, obj, {
    [prop2]: newValue
  });
}
var assoc = curry(assocFn);
function _isInteger(n) {
  return n << 0 === n;
}
var isInteger = Number.isInteger || _isInteger;
function assocPathFn(path2, newValue, input) {
  const pathArrValue = typeof path2 === "string" ? path2.split(".").map((x) => isInteger(Number(x)) ? Number(x) : x) : path2;
  if (pathArrValue.length === 0) {
    return newValue;
  }
  const index = pathArrValue[0];
  if (pathArrValue.length > 1) {
    const condition = typeof input !== "object" || input === null || !input.hasOwnProperty(index);
    const nextInput = condition ? isInteger(pathArrValue[1]) ? [] : {} : input[index];
    newValue = assocPathFn(Array.prototype.slice.call(pathArrValue, 1), newValue, nextInput);
  }
  if (isInteger(index) && isArray(input)) {
    const arr = cloneList(input);
    arr[index] = newValue;
    return arr;
  }
  return assoc(index, newValue, input);
}
var assocPath = curry(assocPathFn);
function clampFn(min, max, input) {
  if (min > max) {
    throw new Error("min must not be greater than max in clamp(min, max, value)");
  }
  if (input >= min && input <= max)
    return input;
  if (input > max)
    return max;
  if (input < min)
    return min;
}
var clamp = curry(clampFn);
var ReduceStopper = class {
  constructor(value) {
    this.value = value;
  }
};
function reduceFn(reducer, acc, list) {
  if (!isArray(list)) {
    throw new TypeError("reduce: list must be array or iterable");
  }
  let index = 0;
  const len = list.length;
  while (index < len) {
    acc = reducer(acc, list[index], index, list);
    if (acc instanceof ReduceStopper) {
      return acc.value;
    }
    index++;
  }
  return acc;
}
var reduce = curry(reduceFn);
var {
  keys: keys$1
} = Object;
function isFalsy(input) {
  return input === void 0 || input === null || Number.isNaN(input) === true;
}
function defaultTo(defaultArgument, input) {
  if (arguments.length === 1) {
    return (_input) => defaultTo(defaultArgument, _input);
  }
  return isFalsy(input) ? defaultArgument : input;
}
function type(input) {
  if (input === null) {
    return "Null";
  } else if (input === void 0) {
    return "Undefined";
  } else if (Number.isNaN(input)) {
    return "NaN";
  }
  const typeResult = Object.prototype.toString.call(input).slice(8, -1);
  return typeResult === "AsyncFunction" ? "Promise" : typeResult;
}
function _indexOf(valueToFind, list) {
  if (!isArray(list)) {
    throw new Error(`Cannot read property 'indexOf' of ${list}`);
  }
  const typeOfValue = type(valueToFind);
  if (!["Object", "Array", "NaN", "RegExp"].includes(typeOfValue))
    return list.indexOf(valueToFind);
  let index = -1;
  let foundIndex = -1;
  const {
    length
  } = list;
  while (++index < length && foundIndex === -1) {
    if (equals(list[index], valueToFind)) {
      foundIndex = index;
    }
  }
  return foundIndex;
}
function _arrayFromIterator(iter) {
  const list = [];
  let next;
  while (!(next = iter.next()).done) {
    list.push(next.value);
  }
  return list;
}
function _equalsSets(a, b) {
  if (a.size !== b.size) {
    return false;
  }
  const aList = _arrayFromIterator(a.values());
  const bList = _arrayFromIterator(b.values());
  const filtered = aList.filter((aInstance) => _indexOf(aInstance, bList) === -1);
  return filtered.length === 0;
}
function parseError(maybeError) {
  const typeofError = maybeError.__proto__.toString();
  if (!["Error", "TypeError"].includes(typeofError))
    return [];
  return [typeofError, maybeError.message];
}
function parseDate(maybeDate) {
  if (!maybeDate.toDateString)
    return [false];
  return [true, maybeDate.getTime()];
}
function parseRegex(maybeRegex) {
  if (maybeRegex.constructor !== RegExp)
    return [false];
  return [true, maybeRegex.toString()];
}
function equals(a, b) {
  if (arguments.length === 1)
    return (_b) => equals(a, _b);
  const aType = type(a);
  if (aType !== type(b))
    return false;
  if (aType === "Function") {
    return a.name === void 0 ? false : a.name === b.name;
  }
  if (["NaN", "Undefined", "Null"].includes(aType))
    return true;
  if (aType === "Number") {
    if (Object.is(-0, a) !== Object.is(-0, b))
      return false;
    return a.toString() === b.toString();
  }
  if (["String", "Boolean"].includes(aType)) {
    return a.toString() === b.toString();
  }
  if (aType === "Array") {
    const aClone = Array.from(a);
    const bClone = Array.from(b);
    if (aClone.toString() !== bClone.toString()) {
      return false;
    }
    let loopArrayFlag = true;
    aClone.forEach((aCloneInstance, aCloneIndex) => {
      if (loopArrayFlag) {
        if (aCloneInstance !== bClone[aCloneIndex] && !equals(aCloneInstance, bClone[aCloneIndex])) {
          loopArrayFlag = false;
        }
      }
    });
    return loopArrayFlag;
  }
  const aRegex = parseRegex(a);
  const bRegex = parseRegex(b);
  if (aRegex[0]) {
    return bRegex[0] ? aRegex[1] === bRegex[1] : false;
  } else if (bRegex[0])
    return false;
  const aDate = parseDate(a);
  const bDate = parseDate(b);
  if (aDate[0]) {
    return bDate[0] ? aDate[1] === bDate[1] : false;
  } else if (bDate[0])
    return false;
  const aError = parseError(a);
  const bError = parseError(b);
  if (aError[0]) {
    return bError[0] ? aError[0] === bError[0] && aError[1] === bError[1] : false;
  }
  if (aType === "Set") {
    return _equalsSets(a, b);
  }
  if (aType === "Object") {
    const aKeys = Object.keys(a);
    if (aKeys.length !== Object.keys(b).length) {
      return false;
    }
    let loopObjectFlag = true;
    aKeys.forEach((aKeyInstance) => {
      if (loopObjectFlag) {
        const aValue = a[aKeyInstance];
        const bValue = b[aKeyInstance];
        if (aValue !== bValue && !equals(aValue, bValue)) {
          loopObjectFlag = false;
        }
      }
    });
    return loopObjectFlag;
  }
  return false;
}
function prop(propToFind, obj) {
  if (arguments.length === 1)
    return (_obj) => prop(propToFind, _obj);
  if (!obj)
    return void 0;
  return obj[propToFind];
}
function eqPropsFn(property, objA, objB) {
  return equals(prop(property, objA), prop(property, objB));
}
var eqProps = curry(eqPropsFn);
function createPath(path2, delimiter = ".") {
  return typeof path2 === "string" ? path2.split(delimiter) : path2;
}
function path(pathInput, obj) {
  if (arguments.length === 1)
    return (_obj) => path(pathInput, _obj);
  if (obj === null || obj === void 0) {
    return void 0;
  }
  let willReturn = obj;
  let counter = 0;
  const pathArrValue = createPath(pathInput);
  while (counter < pathArrValue.length) {
    if (willReturn === null || willReturn === void 0) {
      return void 0;
    }
    if (willReturn[pathArrValue[counter]] === null)
      return void 0;
    willReturn = willReturn[pathArrValue[counter]];
    counter++;
  }
  return willReturn;
}
function ifElseFn(condition, onTrue, onFalse) {
  return (...input) => {
    const conditionResult = typeof condition === "boolean" ? condition : condition(...input);
    if (conditionResult === true) {
      return onTrue(...input);
    }
    return onFalse(...input);
  };
}
var ifElse = curry(ifElseFn);
function baseSlice(array, start, end) {
  let index = -1;
  let {
    length
  } = array;
  end = end > length ? length : end;
  if (end < 0) {
    end += length;
  }
  length = start > end ? 0 : end - start >>> 0;
  start >>>= 0;
  const result = Array(length);
  while (++index < length) {
    result[index] = array[index + start];
  }
  return result;
}
function is(targetPrototype, x) {
  if (arguments.length === 1)
    return (_x) => is(targetPrototype, _x);
  return x != null && x.constructor === targetPrototype || x instanceof targetPrototype;
}
function updateFn(index, newValue, list) {
  const clone = cloneList(list);
  if (index === -1)
    return clone.fill(newValue, index);
  return clone.fill(newValue, index, index + 1);
}
var update = curry(updateFn);
function maxByFn(compareFn, x, y) {
  return compareFn(y) > compareFn(x) ? y : x;
}
var maxBy = curry(maxByFn);
function mergeWithFn(mergeFn, a, b) {
  const willReturn = {};
  Object.keys(a).forEach((key) => {
    if (b[key] === void 0) {
      willReturn[key] = a[key];
    } else {
      willReturn[key] = mergeFn(a[key], b[key]);
    }
  });
  Object.keys(b).forEach((key) => {
    if (willReturn[key] !== void 0)
      return;
    if (a[key] === void 0) {
      willReturn[key] = b[key];
    } else {
      willReturn[key] = mergeFn(a[key], b[key]);
    }
  });
  return willReturn;
}
var mergeWith = curry(mergeWithFn);
function minByFn(compareFn, x, y) {
  return compareFn(y) < compareFn(x) ? y : x;
}
var minBy = curry(minByFn);
function ownKeys(object, enumerableOnly) {
  var keys2 = Object.keys(object);
  if (Object.getOwnPropertySymbols) {
    var symbols = Object.getOwnPropertySymbols(object);
    enumerableOnly && (symbols = symbols.filter(function(sym) {
      return Object.getOwnPropertyDescriptor(object, sym).enumerable;
    })), keys2.push.apply(keys2, symbols);
  }
  return keys2;
}
function _objectSpread2(target) {
  for (var i = 1; i < arguments.length; i++) {
    var source = null != arguments[i] ? arguments[i] : {};
    i % 2 ? ownKeys(Object(source), true).forEach(function(key) {
      _defineProperty(target, key, source[key]);
    }) : Object.getOwnPropertyDescriptors ? Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)) : ownKeys(Object(source)).forEach(function(key) {
      Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key));
    });
  }
  return target;
}
function _defineProperty(obj, key, value) {
  if (key in obj) {
    Object.defineProperty(obj, key, {
      value,
      enumerable: true,
      configurable: true,
      writable: true
    });
  } else {
    obj[key] = value;
  }
  return obj;
}
function isIterable(input) {
  return Array.isArray(input) || type(input) === "Object";
}
function modifyFn(property, fn, iterable) {
  if (!isIterable(iterable))
    return iterable;
  if (iterable[property] === void 0)
    return iterable;
  if (isArray(iterable)) {
    return updateFn(property, fn(iterable[property]), iterable);
  }
  return _objectSpread2(_objectSpread2({}, iterable), {}, {
    [property]: fn(iterable[property])
  });
}
var modify = curry(modifyFn);
function modifyPathFn(pathInput, fn, object) {
  const path$1 = createPath(pathInput);
  if (path$1.length === 1) {
    return _objectSpread2(_objectSpread2({}, object), {}, {
      [path$1[0]]: fn(object[path$1[0]])
    });
  }
  if (path(path$1, object) === void 0)
    return object;
  const val = modifyPath(Array.prototype.slice.call(path$1, 1), fn, object[path$1[0]]);
  if (val === object[path$1[0]]) {
    return object;
  }
  return assoc(path$1[0], val, object);
}
var modifyPath = curry(modifyPathFn);
function moveFn(fromIndex, toIndex, list) {
  if (fromIndex < 0 || toIndex < 0) {
    throw new Error("Rambda.move does not support negative indexes");
  }
  if (fromIndex > list.length - 1 || toIndex > list.length - 1)
    return list;
  const clone = cloneList(list);
  clone[fromIndex] = list[toIndex];
  clone[toIndex] = list[fromIndex];
  return clone;
}
var move = curry(moveFn);
function multiply(x, y) {
  if (arguments.length === 1)
    return (_y) => multiply(x, _y);
  return x * y;
}
var Identity = (x) => ({
  x,
  map: (fn) => Identity(fn(x))
});
function overFn(lens, fn, object) {
  return lens((x) => Identity(fn(x)))(object).x;
}
var over = curry(overFn);
function pathEqFn(pathToSearch, target, input) {
  return equals(path(pathToSearch, input), target);
}
var pathEq = curry(pathEqFn);
function pathOrFn(defaultValue, pathInput, obj) {
  return defaultTo(defaultValue, path(pathInput, obj));
}
var pathOr = curry(pathOrFn);
var product = reduce(multiply, 1);
function propEqFn(propToFind, valueToMatch, obj) {
  if (!obj)
    return false;
  return equals(valueToMatch, prop(propToFind, obj));
}
var propEq = curry(propEqFn);
function propIsFn(targetPrototype, property, obj) {
  return is(targetPrototype, obj[property]);
}
var propIs = curry(propIsFn);
function propOrFn(defaultValue, property, obj) {
  if (!obj)
    return defaultValue;
  return defaultTo(defaultValue, obj[property]);
}
var propOr = curry(propOrFn);
function propSatisfiesFn(predicate, property, obj) {
  return predicate(prop(property, obj));
}
var propSatisfies = curry(propSatisfiesFn);
function replaceFn(pattern, replacer, str) {
  return str.replace(pattern, replacer);
}
var replace = curry(replaceFn);
function setFn(lens, replacer, x) {
  return over(lens, always(replacer), x);
}
var set = curry(setFn);
function sliceFn(from, to, list) {
  return list.slice(from, to);
}
var slice = curry(sliceFn);
function take(howMany, listOrString) {
  if (arguments.length === 1)
    return (_listOrString) => take(howMany, _listOrString);
  if (howMany < 0)
    return listOrString.slice();
  if (typeof listOrString === "string")
    return listOrString.slice(0, howMany);
  return baseSlice(listOrString, 0, howMany);
}
var isFunction = (x) => ["Promise", "Function"].includes(type(x));
function tryCatch(fn, fallback) {
  if (!isFunction(fn)) {
    throw new Error(`R.tryCatch | fn '${fn}'`);
  }
  const passFallback = isFunction(fallback);
  return (...inputs) => {
    try {
      return fn(...inputs);
    } catch (e) {
      return passFallback ? fallback(e, ...inputs) : fallback;
    }
  };
}
function whenFn(predicate, whenTrueFn, input) {
  if (!predicate(input))
    return input;
  return whenTrueFn(input);
}
var when = curry(whenFn);
function zipWithFn(fn, x, y) {
  return take(x.length > y.length ? y.length : x.length, x).map((xInstance, i) => fn(xInstance, y[i]));
}
var zipWith = curry(zipWithFn);

// $$
function $$(sel2, el = document) {
  return [...el.querySelectorAll(sel2)];
}

// po2dt
var SPAN_PRECISION = 15 * 6e4;
function po2dt([dday, dtime]) {
  return dday * 864e5 + dtime * SPAN_PRECISION;
}

// google-calendar-keys
var gkcs_unload = globalThis.gkcs_unload;
gkcs_unload?.();
globalThis.gkcs_unload = main();
globalThis.gkcs_verbose = true;
var { draggingGet: dg, draggingSet: ds } = draggingUse();
function main() {
  console.clear();
  const unloaders = [];
  unloaders.push(
    hotkeyMapper(
      {
        "ctrl+b": async () => {
          const menuBtn = $visiable(sel.Menu);
          menuBtn?.click();
        },
        "alt+v": async () => await cpr(),
        "alt+k": () => eventMove([0, -1]),
        "alt+j": () => eventMove([0, 1]),
        "alt+h": () => eventMove([-1, 0]),
        "alt+l": () => eventMove([1, 0]),
        "alt+shift+k": () => eventExpand([0, -1]),
        "alt+shift+j": () => eventExpand([0, 1]),
        "alt+shift+h": () => eventExpand([-1, 0]),
        "alt+shift+l": () => eventExpand([1, 0])
      },
      "keydown",
      true
    )
  );
  return () => [...unloaders].reverse().forEach((e) => e?.());
}
async function cpr() {
  const r = $$("input,[role=button]").map((element) => {
    const { ps, deep } = onlyPatternSelectorGenerate(element);
    const label = element.ariaLabel ?? "";
    return {
      e: element,
      label,
      ps,
      deep
    };
  }).filter((e) => Boolean(e.label));
  const cpr2 = r.map(({ e, ...r2 }) => r2);
  console.table(r);
  globalThis.patternSelectorGenerate = patternSelectorGenerate;
  await browser_default.write(JSON.stringify(cpr2, null, 2));
}
function useListener(target = window) {
  return (event, onEvent, options) => {
    target.addEventListener(event, onEvent, options);
    const unload = () => target.removeEventListener(event, onEvent, options);
    return unload;
  };
}
async function eventExpand([dx, dy] = [0, 0]) {
  if (dy && await timeAddTry())
    return;
  return tryCatch(
    () => eventDrag([dx, dy], { expand: true }),
    () => inputDateTimeChange(0, po2dt([dx, dy]))
  )(null);
}
async function eventMove([dx, dy] = [0, 0]) {
  if (dy && await timeAddTry())
    return;
  return tryCatch(
    () => eventDrag([dx, dy]),
    () => inputDateTimeChange(po2dt([dx, dy]), 0)
  )(null);
}
async function inputValueSet(el, value) {
  console.log("inputValueSet", el, value);
  if (!el)
    throw new Error("no element");
  if (void 0 === value)
    throw new Error("no value");
  el.value = value;
  el.dispatchEvent(new InputEvent("input", { bubbles: true }));
  el.dispatchEvent(new Event("change", { bubbles: true }));
  el.dispatchEvent(
    new KeyboardEvent("keydown", {
      bubbles: true,
      keyCode: 13
    })
  );
  el.focus();
  await sleep(0);
  el.blur();
}
async function dateInputParse(dateInput, timeInput) {
  const dataDate = dateInput.getAttribute("data-date");
  const dataIcalElement = parentList(dateInput).find(
    (e) => e.getAttribute("data-ical")
  );
  if (!dataIcalElement)
    throw new Error("dataIcalElement not found");
  const dataIcal = dataIcalElement.getAttribute("data-ical");
  const datestringRaw = dataDate || dataIcal;
  if (!datestringRaw)
    throw new Error("no datestring");
  const dateString = datestringRaw.replace(
    /(\d{4})(\d{2})(\d{2})/,
    (_, a, b, c) => [a, b, c].join("-")
  );
  const timeString = timeInput?.value || "00:00";
  return new Date(`${dateString} ${timeString} Z`);
}
function dateParse(dateObj) {
  const m = dateObj.toISOString().match(/(\d\d\d\d-\d\d-\d\d)T(\d\d:\d\d):\d\d\.\d\d\dZ/);
  if (!m)
    throw m;
  const [date, time] = m.slice(1);
  return [date, time];
}
var sel = {
  Menu: '[aria-label="\u30E1\u30A4\u30F3\u30C9\u30ED\u30EF\u30FC"]',
  Summary: [
    '[aria-label="\u30BF\u30A4\u30C8\u30EB\u3068\u65E5\u6642\u3092\u8FFD\u52A0"]',
    '[aria-label="\u30BF\u30A4\u30C8\u30EB\u3092\u8FFD\u52A0"]',
    '[aria-label="\u30BF\u30A4\u30C8\u30EB"]'
  ].join(","),
  StartDate: '[aria-label="\u958B\u59CB\u65E5"]',
  StartTime: '[aria-label="\u958B\u59CB\u6642\u9593"]',
  EndTime: '[aria-label="\u7D42\u4E86\u6642\u9593"]',
  EndDate: '[aria-label="\u7D42\u4E86\u65E5"]',
  AllDay: '[aria-label="\u7D42\u65E5"]',
  TimeZone: '[aria-label="\u30BF\u30A4\u30E0\u30BE\u30FC\u30F3"]',
  Guests: '[aria-label="\u30B2\u30B9\u30C8"]'
};
async function inputDateTimeChange(sdt = 0, edt = 0) {
  const startDateInputPeek = $visiable(sel.StartDate);
  if (!startDateInputPeek) {
    const tz = $visiable(sel.TimeZone);
    if (!tz)
      throw new Error("tz not found");
    const editBtn = parentList(tz)?.find((e) => e.querySelector('[role="button"]'))?.querySelector('[role="button"]');
    if (!editBtn)
      throw new Error("No editable input");
    editBtn.click();
    await sleep(64);
  }
  const startDateInput = $visiable(sel.StartDate);
  const startTimeInput = $visiable(sel.StartTime);
  const endTimeInput = $visiable(sel.EndTime);
  const endDateInput = $visiable(sel.EndDate);
  const endDateInput1 = endDateInput ?? startDateInput;
  if (!startDateInput)
    throw new Error("no startDateInput");
  const startDate = await dateInputParse(startDateInput, startTimeInput);
  const endDate = await dateInputParse(endDateInput1, endTimeInput);
  const startDateObj1 = new Date(+startDate + sdt);
  const endDateObj1 = new Date(+endDate + edt);
  const [startDate0, startTime0] = dateParse(startDate);
  const [endDate0, endTime0] = dateParse(endDate);
  const [startDate1, startTime1] = dateParse(startDateObj1);
  const [endDate1, endTime1] = dateParse(endDateObj1);
  if (globalThis.gkcs_verbose)
    console.table({
      startDate: startDate.toISOString(),
      endDate: endDate.toISOString(),
      startDateObj1: startDateObj1.toISOString(),
      endDateObj1: endDateObj1.toISOString()
    });
  if (globalThis.gkcs_verbose)
    console.table({
      startDateInput: Boolean(startDateInput),
      startTimeInput: Boolean(startTimeInput),
      endDateInput: Boolean(endDateInput),
      endTimeInput: Boolean(endTimeInput),
      startDate0,
      startDate1,
      startTime0,
      startTime1,
      endDate0,
      endDate1,
      endTime0,
      endTime1
    });
  startDateInput && startDate1 !== startDate0 && await inputValueSet(startDateInput, startDate1);
  endDateInput && endDate1 !== endDate0 && await inputValueSet(endDateInput, endDate1);
  startTimeInput && startTime1 !== startTime0 && await inputValueSet(startTimeInput, startTime1);
  endTimeInput && endTime1 !== endTime0 && await inputValueSet(endTimeInput, endTime1);
  $visiable(sel.Summary)?.focus();
}
async function timeAddTry() {
  const btn = $$("button").find(
    (e) => ["Add time", "\u6642\u9593\u3092\u8FFD\u52A0"].includes(e.textContent ?? "")
  );
  if (!btn)
    return 0;
  btn.click();
  await sleep(64);
  return 1;
}
function eleVisiable(ele) {
  return (ele.getClientRects().length && ele) ?? false;
}
function $visiable(sel2, el = document) {
  return $$(sel2, el).filter(eleVisiable)[0] ?? null;
}
function parentList(el) {
  const parent = el?.parentElement;
  if (!parent)
    return [];
  return [parent, ...parentList(parent)];
}
function sleep(ms = 0) {
  return new Promise((resolve) => setTimeout(resolve, ms));
}
function mouseOpt([x, y]) {
  return {
    isTrusted: true,
    bubbles: true,
    button: 0,
    buttons: 1,
    cancelBubble: false,
    cancelable: true,
    clientX: x,
    clientY: y,
    movementX: 0,
    movementY: 0,
    x,
    y
  };
}
function centerGet(element) {
  const { x, y, width: w, height: h } = element.getBoundingClientRect();
  return [x + w / 2, y + h / 2];
}
function vec2add([x, y], [z, w]) {
  return [x + z, y + w];
}
function $(sel2) {
  return document.querySelector(sel2);
}
function onlyPatternSelectorGenerate(element) {
  let deep = 0;
  let ps = "";
  while (1) {
    ps = patternSelectorGenerate(element, { deep });
    if ($$(ps).length <= 1)
      break;
    deep++;
  }
  return { ps, deep };
}
function patternSelectorGenerate(element, { deep = 0 } = {}) {
  const psg = (e) => patternSelectorGenerate(e, { deep: deep - 1 });
  const tag = element.tagName.toLowerCase();
  const attrs = [
    "aria-label",
    "data-key",
    "role",
    "type"
  ].map((name) => attrSel(element, name)).filter((e) => !e.match("\n")).join("");
  let base = `${tag}${attrs}`;
  if (!deep)
    return base;
  const next = element.nextElementSibling;
  if (next)
    base = `${base}:has(+${psg(next).replace(/:has\(.*?\)/g, "")})`;
  const prev = element.previousElementSibling;
  if (prev)
    return `${psg(prev)}+${base}`;
  const parent = element.parentElement;
  if (!parent)
    return base;
  const children = [...parent.children];
  const nth = children.findIndex((v) => element === v) + 1;
  const nthl = children.length - nth + 1;
  if (!nth)
    return base;
  const parentSelector = psg(parent);
  return `${parentSelector}>${base}:nth-child(${nth}):nth-last-child(${nthl})`;
}
function attrSel(element, name) {
  const attr = element.getAttribute(name);
  const dataKey = attr !== null ? attr ? `[${name}="${attr}"]` : `[${name}]` : "";
  return dataKey;
}
function eventDrag([dx, dy] = [0, 0], { expand = false } = {}) {
  const summaryInput = $visiable(sel.Summary);
  summaryInput?.focus();
  if (!dg()) {
    const floatingBtns = [
      .../* @__PURE__ */ new Set([
        ...$$('div[role="button"]').reverse().filter((e) => getComputedStyle(e).zIndex === "5004"),
        ...$$('div:has([role="button"])').reverse().filter((e) => getComputedStyle(e).zIndex === "5004")
      ])
    ];
    if (floatingBtns.length > 1)
      throw new Error("Multiple floating");
    const floatingBtn = floatingBtns[0];
    if (!floatingBtn)
      throw new Error("no event selected");
    const target = expand ? floatingBtn.querySelector('*[data-dragsource-type="3"]') : floatingBtn;
    if (!target)
      throw new Error("no dragTarget exists");
    console.log(target);
    const pos = centerGet(target);
    console.log("cpos", pos);
    ds({ pos, target });
    posHint(pos);
    target.dispatchEvent(new MouseEvent("mousedown", mouseOpt(pos)));
    document.dispatchEvent(new MouseEvent("mousemove", mouseOpt(pos)));
  }
  if (dg()) {
    const container = $('[role="row"][data-dragsource-type="4"]');
    const gridcells = [...container.querySelectorAll('[role="gridcell"]')];
    const containerSize = container.getBoundingClientRect();
    const w = containerSize.width / gridcells.length;
    const h = containerSize.height / 24 / 4;
    ds({
      pos: vec2add(dg().pos, [dx * w, dy * h]),
      target: dg().target
    });
    const pos = dg().pos;
    posHint(pos);
    document.body.dispatchEvent(new MouseEvent("mousemove", mouseOpt(pos)));
  }
  const unload = useListener()("keyup", (e) => {
    if (!["AltLeft", "AltRight"].includes(e.code))
      return;
    unload();
    ds(null);
    document.dispatchEvent(
      new MouseEvent("mouseup", { bubbles: true, cancelable: true })
    );
  });
  return unload;
}
function posHint(pos) {
  const div = document.createElement("div");
  div.style.background = "red";
  div.style.position = "absolute";
  div.style.left = pos[0] + "px";
  div.style.top = pos[1] + "px";
  div.style.width = "1px";
  div.style.height = "1px";
  div.style.zIndex = "10000";
  document.body.appendChild(div);
  setTimeout(() => div.remove(), 200);
}
function draggingUse() {
  const draggingGet = () => globalThis.gcks_dragging;
  const draggingSet = (s) => globalThis.gcks_dragging = s;
  return { draggingGet, draggingSet };
}