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tinymce-editor/out/tinymce/models/dom/model.js

8084 Zeilen
289 KiB
JavaScript

/**
* TinyMCE version 7.5.1 (TBD)
*/
(function () {
'use strict';
var global$1 = tinymce.util.Tools.resolve('tinymce.ModelManager');
const hasProto = (v, constructor, predicate) => {
var _a;
if (predicate(v, constructor.prototype)) {
return true;
} else {
return ((_a = v.constructor) === null || _a === void 0 ? void 0 : _a.name) === constructor.name;
}
};
const typeOf = x => {
const t = typeof x;
if (x === null) {
return 'null';
} else if (t === 'object' && Array.isArray(x)) {
return 'array';
} else if (t === 'object' && hasProto(x, String, (o, proto) => proto.isPrototypeOf(o))) {
return 'string';
} else {
return t;
}
};
const isType$1 = type => value => typeOf(value) === type;
const isSimpleType = type => value => typeof value === type;
const eq$2 = t => a => t === a;
const isString = isType$1('string');
const isObject = isType$1('object');
const isArray = isType$1('array');
const isNull = eq$2(null);
const isBoolean = isSimpleType('boolean');
const isUndefined = eq$2(undefined);
const isNullable = a => a === null || a === undefined;
const isNonNullable = a => !isNullable(a);
const isFunction = isSimpleType('function');
const isNumber = isSimpleType('number');
const noop = () => {
};
const compose = (fa, fb) => {
return (...args) => {
return fa(fb.apply(null, args));
};
};
const compose1 = (fbc, fab) => a => fbc(fab(a));
const constant = value => {
return () => {
return value;
};
};
const identity = x => {
return x;
};
const tripleEquals = (a, b) => {
return a === b;
};
function curry(fn, ...initialArgs) {
return (...restArgs) => {
const all = initialArgs.concat(restArgs);
return fn.apply(null, all);
};
}
const not = f => t => !f(t);
const die = msg => {
return () => {
throw new Error(msg);
};
};
const apply = f => {
return f();
};
const never = constant(false);
const always = constant(true);
class Optional {
constructor(tag, value) {
this.tag = tag;
this.value = value;
}
static some(value) {
return new Optional(true, value);
}
static none() {
return Optional.singletonNone;
}
fold(onNone, onSome) {
if (this.tag) {
return onSome(this.value);
} else {
return onNone();
}
}
isSome() {
return this.tag;
}
isNone() {
return !this.tag;
}
map(mapper) {
if (this.tag) {
return Optional.some(mapper(this.value));
} else {
return Optional.none();
}
}
bind(binder) {
if (this.tag) {
return binder(this.value);
} else {
return Optional.none();
}
}
exists(predicate) {
return this.tag && predicate(this.value);
}
forall(predicate) {
return !this.tag || predicate(this.value);
}
filter(predicate) {
if (!this.tag || predicate(this.value)) {
return this;
} else {
return Optional.none();
}
}
getOr(replacement) {
return this.tag ? this.value : replacement;
}
or(replacement) {
return this.tag ? this : replacement;
}
getOrThunk(thunk) {
return this.tag ? this.value : thunk();
}
orThunk(thunk) {
return this.tag ? this : thunk();
}
getOrDie(message) {
if (!this.tag) {
throw new Error(message !== null && message !== void 0 ? message : 'Called getOrDie on None');
} else {
return this.value;
}
}
static from(value) {
return isNonNullable(value) ? Optional.some(value) : Optional.none();
}
getOrNull() {
return this.tag ? this.value : null;
}
getOrUndefined() {
return this.value;
}
each(worker) {
if (this.tag) {
worker(this.value);
}
}
toArray() {
return this.tag ? [this.value] : [];
}
toString() {
return this.tag ? `some(${ this.value })` : 'none()';
}
}
Optional.singletonNone = new Optional(false);
const nativeSlice = Array.prototype.slice;
const nativeIndexOf = Array.prototype.indexOf;
const nativePush = Array.prototype.push;
const rawIndexOf = (ts, t) => nativeIndexOf.call(ts, t);
const contains$2 = (xs, x) => rawIndexOf(xs, x) > -1;
const exists = (xs, pred) => {
for (let i = 0, len = xs.length; i < len; i++) {
const x = xs[i];
if (pred(x, i)) {
return true;
}
}
return false;
};
const range$1 = (num, f) => {
const r = [];
for (let i = 0; i < num; i++) {
r.push(f(i));
}
return r;
};
const map$1 = (xs, f) => {
const len = xs.length;
const r = new Array(len);
for (let i = 0; i < len; i++) {
const x = xs[i];
r[i] = f(x, i);
}
return r;
};
const each$2 = (xs, f) => {
for (let i = 0, len = xs.length; i < len; i++) {
const x = xs[i];
f(x, i);
}
};
const eachr = (xs, f) => {
for (let i = xs.length - 1; i >= 0; i--) {
const x = xs[i];
f(x, i);
}
};
const partition = (xs, pred) => {
const pass = [];
const fail = [];
for (let i = 0, len = xs.length; i < len; i++) {
const x = xs[i];
const arr = pred(x, i) ? pass : fail;
arr.push(x);
}
return {
pass,
fail
};
};
const filter$2 = (xs, pred) => {
const r = [];
for (let i = 0, len = xs.length; i < len; i++) {
const x = xs[i];
if (pred(x, i)) {
r.push(x);
}
}
return r;
};
const foldr = (xs, f, acc) => {
eachr(xs, (x, i) => {
acc = f(acc, x, i);
});
return acc;
};
const foldl = (xs, f, acc) => {
each$2(xs, (x, i) => {
acc = f(acc, x, i);
});
return acc;
};
const findUntil = (xs, pred, until) => {
for (let i = 0, len = xs.length; i < len; i++) {
const x = xs[i];
if (pred(x, i)) {
return Optional.some(x);
} else if (until(x, i)) {
break;
}
}
return Optional.none();
};
const find$1 = (xs, pred) => {
return findUntil(xs, pred, never);
};
const findIndex = (xs, pred) => {
for (let i = 0, len = xs.length; i < len; i++) {
const x = xs[i];
if (pred(x, i)) {
return Optional.some(i);
}
}
return Optional.none();
};
const flatten = xs => {
const r = [];
for (let i = 0, len = xs.length; i < len; ++i) {
if (!isArray(xs[i])) {
throw new Error('Arr.flatten item ' + i + ' was not an array, input: ' + xs);
}
nativePush.apply(r, xs[i]);
}
return r;
};
const bind$2 = (xs, f) => flatten(map$1(xs, f));
const forall = (xs, pred) => {
for (let i = 0, len = xs.length; i < len; ++i) {
const x = xs[i];
if (pred(x, i) !== true) {
return false;
}
}
return true;
};
const reverse = xs => {
const r = nativeSlice.call(xs, 0);
r.reverse();
return r;
};
const mapToObject = (xs, f) => {
const r = {};
for (let i = 0, len = xs.length; i < len; i++) {
const x = xs[i];
r[String(x)] = f(x, i);
}
return r;
};
const sort$1 = (xs, comparator) => {
const copy = nativeSlice.call(xs, 0);
copy.sort(comparator);
return copy;
};
const get$d = (xs, i) => i >= 0 && i < xs.length ? Optional.some(xs[i]) : Optional.none();
const head = xs => get$d(xs, 0);
const last$2 = xs => get$d(xs, xs.length - 1);
const findMap = (arr, f) => {
for (let i = 0; i < arr.length; i++) {
const r = f(arr[i], i);
if (r.isSome()) {
return r;
}
}
return Optional.none();
};
const keys = Object.keys;
const hasOwnProperty = Object.hasOwnProperty;
const each$1 = (obj, f) => {
const props = keys(obj);
for (let k = 0, len = props.length; k < len; k++) {
const i = props[k];
const x = obj[i];
f(x, i);
}
};
const map = (obj, f) => {
return tupleMap(obj, (x, i) => ({
k: i,
v: f(x, i)
}));
};
const tupleMap = (obj, f) => {
const r = {};
each$1(obj, (x, i) => {
const tuple = f(x, i);
r[tuple.k] = tuple.v;
});
return r;
};
const objAcc = r => (x, i) => {
r[i] = x;
};
const internalFilter = (obj, pred, onTrue, onFalse) => {
each$1(obj, (x, i) => {
(pred(x, i) ? onTrue : onFalse)(x, i);
});
};
const filter$1 = (obj, pred) => {
const t = {};
internalFilter(obj, pred, objAcc(t), noop);
return t;
};
const mapToArray = (obj, f) => {
const r = [];
each$1(obj, (value, name) => {
r.push(f(value, name));
});
return r;
};
const values = obj => {
return mapToArray(obj, identity);
};
const get$c = (obj, key) => {
return has$1(obj, key) ? Optional.from(obj[key]) : Optional.none();
};
const has$1 = (obj, key) => hasOwnProperty.call(obj, key);
const hasNonNullableKey = (obj, key) => has$1(obj, key) && obj[key] !== undefined && obj[key] !== null;
const isEmpty = r => {
for (const x in r) {
if (hasOwnProperty.call(r, x)) {
return false;
}
}
return true;
};
const Global = typeof window !== 'undefined' ? window : Function('return this;')();
const path = (parts, scope) => {
let o = scope !== undefined && scope !== null ? scope : Global;
for (let i = 0; i < parts.length && o !== undefined && o !== null; ++i) {
o = o[parts[i]];
}
return o;
};
const resolve$2 = (p, scope) => {
const parts = p.split('.');
return path(parts, scope);
};
const unsafe = (name, scope) => {
return resolve$2(name, scope);
};
const getOrDie = (name, scope) => {
const actual = unsafe(name, scope);
if (actual === undefined || actual === null) {
throw new Error(name + ' not available on this browser');
}
return actual;
};
const getPrototypeOf = Object.getPrototypeOf;
const sandHTMLElement = scope => {
return getOrDie('HTMLElement', scope);
};
const isPrototypeOf = x => {
const scope = resolve$2('ownerDocument.defaultView', x);
return isObject(x) && (sandHTMLElement(scope).prototype.isPrototypeOf(x) || /^HTML\w*Element$/.test(getPrototypeOf(x).constructor.name));
};
const COMMENT = 8;
const DOCUMENT = 9;
const DOCUMENT_FRAGMENT = 11;
const ELEMENT = 1;
const TEXT = 3;
const name = element => {
const r = element.dom.nodeName;
return r.toLowerCase();
};
const type = element => element.dom.nodeType;
const isType = t => element => type(element) === t;
const isComment = element => type(element) === COMMENT || name(element) === '#comment';
const isHTMLElement = element => isElement(element) && isPrototypeOf(element.dom);
const isElement = isType(ELEMENT);
const isText = isType(TEXT);
const isDocument = isType(DOCUMENT);
const isDocumentFragment = isType(DOCUMENT_FRAGMENT);
const isTag = tag => e => isElement(e) && name(e) === tag;
const rawSet = (dom, key, value) => {
if (isString(value) || isBoolean(value) || isNumber(value)) {
dom.setAttribute(key, value + '');
} else {
console.error('Invalid call to Attribute.set. Key ', key, ':: Value ', value, ':: Element ', dom);
throw new Error('Attribute value was not simple');
}
};
const set$2 = (element, key, value) => {
rawSet(element.dom, key, value);
};
const setAll$1 = (element, attrs) => {
const dom = element.dom;
each$1(attrs, (v, k) => {
rawSet(dom, k, v);
});
};
const setOptions = (element, attrs) => {
each$1(attrs, (v, k) => {
v.fold(() => {
remove$7(element, k);
}, value => {
rawSet(element.dom, k, value);
});
});
};
const get$b = (element, key) => {
const v = element.dom.getAttribute(key);
return v === null ? undefined : v;
};
const getOpt = (element, key) => Optional.from(get$b(element, key));
const remove$7 = (element, key) => {
element.dom.removeAttribute(key);
};
const clone$2 = element => foldl(element.dom.attributes, (acc, attr) => {
acc[attr.name] = attr.value;
return acc;
}, {});
const fromHtml$1 = (html, scope) => {
const doc = scope || document;
const div = doc.createElement('div');
div.innerHTML = html;
if (!div.hasChildNodes() || div.childNodes.length > 1) {
const message = 'HTML does not have a single root node';
console.error(message, html);
throw new Error(message);
}
return fromDom$1(div.childNodes[0]);
};
const fromTag = (tag, scope) => {
const doc = scope || document;
const node = doc.createElement(tag);
return fromDom$1(node);
};
const fromText = (text, scope) => {
const doc = scope || document;
const node = doc.createTextNode(text);
return fromDom$1(node);
};
const fromDom$1 = node => {
if (node === null || node === undefined) {
throw new Error('Node cannot be null or undefined');
}
return { dom: node };
};
const fromPoint$1 = (docElm, x, y) => Optional.from(docElm.dom.elementFromPoint(x, y)).map(fromDom$1);
const SugarElement = {
fromHtml: fromHtml$1,
fromTag,
fromText,
fromDom: fromDom$1,
fromPoint: fromPoint$1
};
const is$2 = (element, selector) => {
const dom = element.dom;
if (dom.nodeType !== ELEMENT) {
return false;
} else {
const elem = dom;
if (elem.matches !== undefined) {
return elem.matches(selector);
} else if (elem.msMatchesSelector !== undefined) {
return elem.msMatchesSelector(selector);
} else if (elem.webkitMatchesSelector !== undefined) {
return elem.webkitMatchesSelector(selector);
} else if (elem.mozMatchesSelector !== undefined) {
return elem.mozMatchesSelector(selector);
} else {
throw new Error('Browser lacks native selectors');
}
}
};
const bypassSelector = dom => dom.nodeType !== ELEMENT && dom.nodeType !== DOCUMENT && dom.nodeType !== DOCUMENT_FRAGMENT || dom.childElementCount === 0;
const all$1 = (selector, scope) => {
const base = scope === undefined ? document : scope.dom;
return bypassSelector(base) ? [] : map$1(base.querySelectorAll(selector), SugarElement.fromDom);
};
const one = (selector, scope) => {
const base = scope === undefined ? document : scope.dom;
return bypassSelector(base) ? Optional.none() : Optional.from(base.querySelector(selector)).map(SugarElement.fromDom);
};
const eq$1 = (e1, e2) => e1.dom === e2.dom;
const contains$1 = (e1, e2) => {
const d1 = e1.dom;
const d2 = e2.dom;
return d1 === d2 ? false : d1.contains(d2);
};
const is$1 = is$2;
const owner = element => SugarElement.fromDom(element.dom.ownerDocument);
const documentOrOwner = dos => isDocument(dos) ? dos : owner(dos);
const documentElement = element => SugarElement.fromDom(documentOrOwner(element).dom.documentElement);
const defaultView = element => SugarElement.fromDom(documentOrOwner(element).dom.defaultView);
const parent = element => Optional.from(element.dom.parentNode).map(SugarElement.fromDom);
const parentElement = element => Optional.from(element.dom.parentElement).map(SugarElement.fromDom);
const parents = (element, isRoot) => {
const stop = isFunction(isRoot) ? isRoot : never;
let dom = element.dom;
const ret = [];
while (dom.parentNode !== null && dom.parentNode !== undefined) {
const rawParent = dom.parentNode;
const p = SugarElement.fromDom(rawParent);
ret.push(p);
if (stop(p) === true) {
break;
} else {
dom = rawParent;
}
}
return ret;
};
const prevSibling = element => Optional.from(element.dom.previousSibling).map(SugarElement.fromDom);
const nextSibling = element => Optional.from(element.dom.nextSibling).map(SugarElement.fromDom);
const children$2 = element => map$1(element.dom.childNodes, SugarElement.fromDom);
const child$2 = (element, index) => {
const cs = element.dom.childNodes;
return Optional.from(cs[index]).map(SugarElement.fromDom);
};
const firstChild = element => child$2(element, 0);
const before$3 = (marker, element) => {
const parent$1 = parent(marker);
parent$1.each(v => {
v.dom.insertBefore(element.dom, marker.dom);
});
};
const after$5 = (marker, element) => {
const sibling = nextSibling(marker);
sibling.fold(() => {
const parent$1 = parent(marker);
parent$1.each(v => {
append$1(v, element);
});
}, v => {
before$3(v, element);
});
};
const prepend = (parent, element) => {
const firstChild$1 = firstChild(parent);
firstChild$1.fold(() => {
append$1(parent, element);
}, v => {
parent.dom.insertBefore(element.dom, v.dom);
});
};
const append$1 = (parent, element) => {
parent.dom.appendChild(element.dom);
};
const appendAt = (parent, element, index) => {
child$2(parent, index).fold(() => {
append$1(parent, element);
}, v => {
before$3(v, element);
});
};
const wrap = (element, wrapper) => {
before$3(element, wrapper);
append$1(wrapper, element);
};
const after$4 = (marker, elements) => {
each$2(elements, (x, i) => {
const e = i === 0 ? marker : elements[i - 1];
after$5(e, x);
});
};
const append = (parent, elements) => {
each$2(elements, x => {
append$1(parent, x);
});
};
const empty = element => {
element.dom.textContent = '';
each$2(children$2(element), rogue => {
remove$6(rogue);
});
};
const remove$6 = element => {
const dom = element.dom;
if (dom.parentNode !== null) {
dom.parentNode.removeChild(dom);
}
};
const unwrap = wrapper => {
const children = children$2(wrapper);
if (children.length > 0) {
after$4(wrapper, children);
}
remove$6(wrapper);
};
const clone$1 = (original, isDeep) => SugarElement.fromDom(original.dom.cloneNode(isDeep));
const shallow = original => clone$1(original, false);
const deep = original => clone$1(original, true);
const shallowAs = (original, tag) => {
const nu = SugarElement.fromTag(tag);
const attributes = clone$2(original);
setAll$1(nu, attributes);
return nu;
};
const copy$2 = (original, tag) => {
const nu = shallowAs(original, tag);
const cloneChildren = children$2(deep(original));
append(nu, cloneChildren);
return nu;
};
const mutate$1 = (original, tag) => {
const nu = shallowAs(original, tag);
after$5(original, nu);
const children = children$2(original);
append(nu, children);
remove$6(original);
return nu;
};
const validSectionList = [
'tfoot',
'thead',
'tbody',
'colgroup'
];
const isValidSection = parentName => contains$2(validSectionList, parentName);
const grid = (rows, columns) => ({
rows,
columns
});
const address = (row, column) => ({
row,
column
});
const detail = (element, rowspan, colspan) => ({
element,
rowspan,
colspan
});
const detailnew = (element, rowspan, colspan, isNew) => ({
element,
rowspan,
colspan,
isNew
});
const extended = (element, rowspan, colspan, row, column, isLocked) => ({
element,
rowspan,
colspan,
row,
column,
isLocked
});
const rowdetail = (element, cells, section) => ({
element,
cells,
section
});
const rowdetailnew = (element, cells, section, isNew) => ({
element,
cells,
section,
isNew
});
const elementnew = (element, isNew, isLocked) => ({
element,
isNew,
isLocked
});
const rowcells = (element, cells, section, isNew) => ({
element,
cells,
section,
isNew
});
const bounds = (startRow, startCol, finishRow, finishCol) => ({
startRow,
startCol,
finishRow,
finishCol
});
const columnext = (element, colspan, column) => ({
element,
colspan,
column
});
const colgroup = (element, columns) => ({
element,
columns
});
const isShadowRoot = dos => isDocumentFragment(dos) && isNonNullable(dos.dom.host);
const getRootNode = e => SugarElement.fromDom(e.dom.getRootNode());
const getContentContainer = dos => isShadowRoot(dos) ? dos : SugarElement.fromDom(documentOrOwner(dos).dom.body);
const getShadowRoot = e => {
const r = getRootNode(e);
return isShadowRoot(r) ? Optional.some(r) : Optional.none();
};
const getShadowHost = e => SugarElement.fromDom(e.dom.host);
const getOriginalEventTarget = event => {
if (isNonNullable(event.target)) {
const el = SugarElement.fromDom(event.target);
if (isElement(el) && isOpenShadowHost(el)) {
if (event.composed && event.composedPath) {
const composedPath = event.composedPath();
if (composedPath) {
return head(composedPath);
}
}
}
}
return Optional.from(event.target);
};
const isOpenShadowHost = element => isNonNullable(element.dom.shadowRoot);
const inBody = element => {
const dom = isText(element) ? element.dom.parentNode : element.dom;
if (dom === undefined || dom === null || dom.ownerDocument === null) {
return false;
}
const doc = dom.ownerDocument;
return getShadowRoot(SugarElement.fromDom(dom)).fold(() => doc.body.contains(dom), compose1(inBody, getShadowHost));
};
const body$1 = () => getBody$1(SugarElement.fromDom(document));
const getBody$1 = doc => {
const b = doc.dom.body;
if (b === null || b === undefined) {
throw new Error('Body is not available yet');
}
return SugarElement.fromDom(b);
};
const ancestors$4 = (scope, predicate, isRoot) => filter$2(parents(scope, isRoot), predicate);
const children$1 = (scope, predicate) => filter$2(children$2(scope), predicate);
const descendants$1 = (scope, predicate) => {
let result = [];
each$2(children$2(scope), x => {
if (predicate(x)) {
result = result.concat([x]);
}
result = result.concat(descendants$1(x, predicate));
});
return result;
};
const ancestors$3 = (scope, selector, isRoot) => ancestors$4(scope, e => is$2(e, selector), isRoot);
const children = (scope, selector) => children$1(scope, e => is$2(e, selector));
const descendants = (scope, selector) => all$1(selector, scope);
var ClosestOrAncestor = (is, ancestor, scope, a, isRoot) => {
if (is(scope, a)) {
return Optional.some(scope);
} else if (isFunction(isRoot) && isRoot(scope)) {
return Optional.none();
} else {
return ancestor(scope, a, isRoot);
}
};
const ancestor$2 = (scope, predicate, isRoot) => {
let element = scope.dom;
const stop = isFunction(isRoot) ? isRoot : never;
while (element.parentNode) {
element = element.parentNode;
const el = SugarElement.fromDom(element);
if (predicate(el)) {
return Optional.some(el);
} else if (stop(el)) {
break;
}
}
return Optional.none();
};
const closest$2 = (scope, predicate, isRoot) => {
const is = (s, test) => test(s);
return ClosestOrAncestor(is, ancestor$2, scope, predicate, isRoot);
};
const child$1 = (scope, predicate) => {
const pred = node => predicate(SugarElement.fromDom(node));
const result = find$1(scope.dom.childNodes, pred);
return result.map(SugarElement.fromDom);
};
const descendant$1 = (scope, predicate) => {
const descend = node => {
for (let i = 0; i < node.childNodes.length; i++) {
const child = SugarElement.fromDom(node.childNodes[i]);
if (predicate(child)) {
return Optional.some(child);
}
const res = descend(node.childNodes[i]);
if (res.isSome()) {
return res;
}
}
return Optional.none();
};
return descend(scope.dom);
};
const ancestor$1 = (scope, selector, isRoot) => ancestor$2(scope, e => is$2(e, selector), isRoot);
const child = (scope, selector) => child$1(scope, e => is$2(e, selector));
const descendant = (scope, selector) => one(selector, scope);
const closest$1 = (scope, selector, isRoot) => {
const is = (element, selector) => is$2(element, selector);
return ClosestOrAncestor(is, ancestor$1, scope, selector, isRoot);
};
const is = (lhs, rhs, comparator = tripleEquals) => lhs.exists(left => comparator(left, rhs));
const cat = arr => {
const r = [];
const push = x => {
r.push(x);
};
for (let i = 0; i < arr.length; i++) {
arr[i].each(push);
}
return r;
};
const bindFrom = (a, f) => a !== undefined && a !== null ? f(a) : Optional.none();
const someIf = (b, a) => b ? Optional.some(a) : Optional.none();
const removeFromStart = (str, numChars) => {
return str.substring(numChars);
};
const checkRange = (str, substr, start) => substr === '' || str.length >= substr.length && str.substr(start, start + substr.length) === substr;
const removeLeading = (str, prefix) => {
return startsWith(str, prefix) ? removeFromStart(str, prefix.length) : str;
};
const contains = (str, substr, start = 0, end) => {
const idx = str.indexOf(substr, start);
if (idx !== -1) {
return isUndefined(end) ? true : idx + substr.length <= end;
} else {
return false;
}
};
const startsWith = (str, prefix) => {
return checkRange(str, prefix, 0);
};
const endsWith = (str, suffix) => {
return checkRange(str, suffix, str.length - suffix.length);
};
const blank = r => s => s.replace(r, '');
const trim = blank(/^\s+|\s+$/g);
const isNotEmpty = s => s.length > 0;
const toFloat = value => {
const num = parseFloat(value);
return isNaN(num) ? Optional.none() : Optional.some(num);
};
const isSupported = dom => dom.style !== undefined && isFunction(dom.style.getPropertyValue);
const internalSet = (dom, property, value) => {
if (!isString(value)) {
console.error('Invalid call to CSS.set. Property ', property, ':: Value ', value, ':: Element ', dom);
throw new Error('CSS value must be a string: ' + value);
}
if (isSupported(dom)) {
dom.style.setProperty(property, value);
}
};
const internalRemove = (dom, property) => {
if (isSupported(dom)) {
dom.style.removeProperty(property);
}
};
const set$1 = (element, property, value) => {
const dom = element.dom;
internalSet(dom, property, value);
};
const setAll = (element, css) => {
const dom = element.dom;
each$1(css, (v, k) => {
internalSet(dom, k, v);
});
};
const get$a = (element, property) => {
const dom = element.dom;
const styles = window.getComputedStyle(dom);
const r = styles.getPropertyValue(property);
return r === '' && !inBody(element) ? getUnsafeProperty(dom, property) : r;
};
const getUnsafeProperty = (dom, property) => isSupported(dom) ? dom.style.getPropertyValue(property) : '';
const getRaw$2 = (element, property) => {
const dom = element.dom;
const raw = getUnsafeProperty(dom, property);
return Optional.from(raw).filter(r => r.length > 0);
};
const remove$5 = (element, property) => {
const dom = element.dom;
internalRemove(dom, property);
if (is(getOpt(element, 'style').map(trim), '')) {
remove$7(element, 'style');
}
};
const copy$1 = (source, target) => {
const sourceDom = source.dom;
const targetDom = target.dom;
if (isSupported(sourceDom) && isSupported(targetDom)) {
targetDom.style.cssText = sourceDom.style.cssText;
}
};
const getAttrValue = (cell, name, fallback = 0) => getOpt(cell, name).map(value => parseInt(value, 10)).getOr(fallback);
const getSpan = (cell, type) => getAttrValue(cell, type, 1);
const hasColspan = cellOrCol => {
if (isTag('col')(cellOrCol)) {
return getAttrValue(cellOrCol, 'span', 1) > 1;
} else {
return getSpan(cellOrCol, 'colspan') > 1;
}
};
const hasRowspan = cell => getSpan(cell, 'rowspan') > 1;
const getCssValue = (element, property) => parseInt(get$a(element, property), 10);
const minWidth = constant(10);
const minHeight = constant(10);
const firstLayer = (scope, selector) => {
return filterFirstLayer(scope, selector, always);
};
const filterFirstLayer = (scope, selector, predicate) => {
return bind$2(children$2(scope), x => {
if (is$2(x, selector)) {
return predicate(x) ? [x] : [];
} else {
return filterFirstLayer(x, selector, predicate);
}
});
};
const lookup = (tags, element, isRoot = never) => {
if (isRoot(element)) {
return Optional.none();
}
if (contains$2(tags, name(element))) {
return Optional.some(element);
}
const isRootOrUpperTable = elm => is$2(elm, 'table') || isRoot(elm);
return ancestor$1(element, tags.join(','), isRootOrUpperTable);
};
const cell = (element, isRoot) => lookup([
'td',
'th'
], element, isRoot);
const cells$1 = ancestor => firstLayer(ancestor, 'th,td');
const columns$1 = ancestor => {
if (is$2(ancestor, 'colgroup')) {
return children(ancestor, 'col');
} else {
return bind$2(columnGroups(ancestor), columnGroup => children(columnGroup, 'col'));
}
};
const table = (element, isRoot) => closest$1(element, 'table', isRoot);
const rows$1 = ancestor => firstLayer(ancestor, 'tr');
const columnGroups = ancestor => table(ancestor).fold(constant([]), table => children(table, 'colgroup'));
const fromRowsOrColGroups = (elems, getSection) => map$1(elems, row => {
if (name(row) === 'colgroup') {
const cells = map$1(columns$1(row), column => {
const colspan = getAttrValue(column, 'span', 1);
return detail(column, 1, colspan);
});
return rowdetail(row, cells, 'colgroup');
} else {
const cells = map$1(cells$1(row), cell => {
const rowspan = getAttrValue(cell, 'rowspan', 1);
const colspan = getAttrValue(cell, 'colspan', 1);
return detail(cell, rowspan, colspan);
});
return rowdetail(row, cells, getSection(row));
}
});
const getParentSection = group => parent(group).map(parent => {
const parentName = name(parent);
return isValidSection(parentName) ? parentName : 'tbody';
}).getOr('tbody');
const fromTable$1 = table => {
const rows = rows$1(table);
const columnGroups$1 = columnGroups(table);
const elems = [
...columnGroups$1,
...rows
];
return fromRowsOrColGroups(elems, getParentSection);
};
const fromPastedRows = (elems, section) => fromRowsOrColGroups(elems, () => section);
const cached = f => {
let called = false;
let r;
return (...args) => {
if (!called) {
called = true;
r = f.apply(null, args);
}
return r;
};
};
const DeviceType = (os, browser, userAgent, mediaMatch) => {
const isiPad = os.isiOS() && /ipad/i.test(userAgent) === true;
const isiPhone = os.isiOS() && !isiPad;
const isMobile = os.isiOS() || os.isAndroid();
const isTouch = isMobile || mediaMatch('(pointer:coarse)');
const isTablet = isiPad || !isiPhone && isMobile && mediaMatch('(min-device-width:768px)');
const isPhone = isiPhone || isMobile && !isTablet;
const iOSwebview = browser.isSafari() && os.isiOS() && /safari/i.test(userAgent) === false;
const isDesktop = !isPhone && !isTablet && !iOSwebview;
return {
isiPad: constant(isiPad),
isiPhone: constant(isiPhone),
isTablet: constant(isTablet),
isPhone: constant(isPhone),
isTouch: constant(isTouch),
isAndroid: os.isAndroid,
isiOS: os.isiOS,
isWebView: constant(iOSwebview),
isDesktop: constant(isDesktop)
};
};
const firstMatch = (regexes, s) => {
for (let i = 0; i < regexes.length; i++) {
const x = regexes[i];
if (x.test(s)) {
return x;
}
}
return undefined;
};
const find = (regexes, agent) => {
const r = firstMatch(regexes, agent);
if (!r) {
return {
major: 0,
minor: 0
};
}
const group = i => {
return Number(agent.replace(r, '$' + i));
};
return nu$2(group(1), group(2));
};
const detect$5 = (versionRegexes, agent) => {
const cleanedAgent = String(agent).toLowerCase();
if (versionRegexes.length === 0) {
return unknown$2();
}
return find(versionRegexes, cleanedAgent);
};
const unknown$2 = () => {
return nu$2(0, 0);
};
const nu$2 = (major, minor) => {
return {
major,
minor
};
};
const Version = {
nu: nu$2,
detect: detect$5,
unknown: unknown$2
};
const detectBrowser$1 = (browsers, userAgentData) => {
return findMap(userAgentData.brands, uaBrand => {
const lcBrand = uaBrand.brand.toLowerCase();
return find$1(browsers, browser => {
var _a;
return lcBrand === ((_a = browser.brand) === null || _a === void 0 ? void 0 : _a.toLowerCase());
}).map(info => ({
current: info.name,
version: Version.nu(parseInt(uaBrand.version, 10), 0)
}));
});
};
const detect$4 = (candidates, userAgent) => {
const agent = String(userAgent).toLowerCase();
return find$1(candidates, candidate => {
return candidate.search(agent);
});
};
const detectBrowser = (browsers, userAgent) => {
return detect$4(browsers, userAgent).map(browser => {
const version = Version.detect(browser.versionRegexes, userAgent);
return {
current: browser.name,
version
};
});
};
const detectOs = (oses, userAgent) => {
return detect$4(oses, userAgent).map(os => {
const version = Version.detect(os.versionRegexes, userAgent);
return {
current: os.name,
version
};
});
};
const normalVersionRegex = /.*?version\/\ ?([0-9]+)\.([0-9]+).*/;
const checkContains = target => {
return uastring => {
return contains(uastring, target);
};
};
const browsers = [
{
name: 'Edge',
versionRegexes: [/.*?edge\/ ?([0-9]+)\.([0-9]+)$/],
search: uastring => {
return contains(uastring, 'edge/') && contains(uastring, 'chrome') && contains(uastring, 'safari') && contains(uastring, 'applewebkit');
}
},
{
name: 'Chromium',
brand: 'Chromium',
versionRegexes: [
/.*?chrome\/([0-9]+)\.([0-9]+).*/,
normalVersionRegex
],
search: uastring => {
return contains(uastring, 'chrome') && !contains(uastring, 'chromeframe');
}
},
{
name: 'IE',
versionRegexes: [
/.*?msie\ ?([0-9]+)\.([0-9]+).*/,
/.*?rv:([0-9]+)\.([0-9]+).*/
],
search: uastring => {
return contains(uastring, 'msie') || contains(uastring, 'trident');
}
},
{
name: 'Opera',
versionRegexes: [
normalVersionRegex,
/.*?opera\/([0-9]+)\.([0-9]+).*/
],
search: checkContains('opera')
},
{
name: 'Firefox',
versionRegexes: [/.*?firefox\/\ ?([0-9]+)\.([0-9]+).*/],
search: checkContains('firefox')
},
{
name: 'Safari',
versionRegexes: [
normalVersionRegex,
/.*?cpu os ([0-9]+)_([0-9]+).*/
],
search: uastring => {
return (contains(uastring, 'safari') || contains(uastring, 'mobile/')) && contains(uastring, 'applewebkit');
}
}
];
const oses = [
{
name: 'Windows',
search: checkContains('win'),
versionRegexes: [/.*?windows\ nt\ ?([0-9]+)\.([0-9]+).*/]
},
{
name: 'iOS',
search: uastring => {
return contains(uastring, 'iphone') || contains(uastring, 'ipad');
},
versionRegexes: [
/.*?version\/\ ?([0-9]+)\.([0-9]+).*/,
/.*cpu os ([0-9]+)_([0-9]+).*/,
/.*cpu iphone os ([0-9]+)_([0-9]+).*/
]
},
{
name: 'Android',
search: checkContains('android'),
versionRegexes: [/.*?android\ ?([0-9]+)\.([0-9]+).*/]
},
{
name: 'macOS',
search: checkContains('mac os x'),
versionRegexes: [/.*?mac\ os\ x\ ?([0-9]+)_([0-9]+).*/]
},
{
name: 'Linux',
search: checkContains('linux'),
versionRegexes: []
},
{
name: 'Solaris',
search: checkContains('sunos'),
versionRegexes: []
},
{
name: 'FreeBSD',
search: checkContains('freebsd'),
versionRegexes: []
},
{
name: 'ChromeOS',
search: checkContains('cros'),
versionRegexes: [/.*?chrome\/([0-9]+)\.([0-9]+).*/]
}
];
const PlatformInfo = {
browsers: constant(browsers),
oses: constant(oses)
};
const edge = 'Edge';
const chromium = 'Chromium';
const ie = 'IE';
const opera = 'Opera';
const firefox = 'Firefox';
const safari = 'Safari';
const unknown$1 = () => {
return nu$1({
current: undefined,
version: Version.unknown()
});
};
const nu$1 = info => {
const current = info.current;
const version = info.version;
const isBrowser = name => () => current === name;
return {
current,
version,
isEdge: isBrowser(edge),
isChromium: isBrowser(chromium),
isIE: isBrowser(ie),
isOpera: isBrowser(opera),
isFirefox: isBrowser(firefox),
isSafari: isBrowser(safari)
};
};
const Browser = {
unknown: unknown$1,
nu: nu$1,
edge: constant(edge),
chromium: constant(chromium),
ie: constant(ie),
opera: constant(opera),
firefox: constant(firefox),
safari: constant(safari)
};
const windows = 'Windows';
const ios = 'iOS';
const android = 'Android';
const linux = 'Linux';
const macos = 'macOS';
const solaris = 'Solaris';
const freebsd = 'FreeBSD';
const chromeos = 'ChromeOS';
const unknown = () => {
return nu({
current: undefined,
version: Version.unknown()
});
};
const nu = info => {
const current = info.current;
const version = info.version;
const isOS = name => () => current === name;
return {
current,
version,
isWindows: isOS(windows),
isiOS: isOS(ios),
isAndroid: isOS(android),
isMacOS: isOS(macos),
isLinux: isOS(linux),
isSolaris: isOS(solaris),
isFreeBSD: isOS(freebsd),
isChromeOS: isOS(chromeos)
};
};
const OperatingSystem = {
unknown,
nu,
windows: constant(windows),
ios: constant(ios),
android: constant(android),
linux: constant(linux),
macos: constant(macos),
solaris: constant(solaris),
freebsd: constant(freebsd),
chromeos: constant(chromeos)
};
const detect$3 = (userAgent, userAgentDataOpt, mediaMatch) => {
const browsers = PlatformInfo.browsers();
const oses = PlatformInfo.oses();
const browser = userAgentDataOpt.bind(userAgentData => detectBrowser$1(browsers, userAgentData)).orThunk(() => detectBrowser(browsers, userAgent)).fold(Browser.unknown, Browser.nu);
const os = detectOs(oses, userAgent).fold(OperatingSystem.unknown, OperatingSystem.nu);
const deviceType = DeviceType(os, browser, userAgent, mediaMatch);
return {
browser,
os,
deviceType
};
};
const PlatformDetection = { detect: detect$3 };
const mediaMatch = query => window.matchMedia(query).matches;
let platform = cached(() => PlatformDetection.detect(window.navigator.userAgent, Optional.from(window.navigator.userAgentData), mediaMatch));
const detect$2 = () => platform();
const Dimension = (name, getOffset) => {
const set = (element, h) => {
if (!isNumber(h) && !h.match(/^[0-9]+$/)) {
throw new Error(name + '.set accepts only positive integer values. Value was ' + h);
}
const dom = element.dom;
if (isSupported(dom)) {
dom.style[name] = h + 'px';
}
};
const get = element => {
const r = getOffset(element);
if (r <= 0 || r === null) {
const css = get$a(element, name);
return parseFloat(css) || 0;
}
return r;
};
const getOuter = get;
const aggregate = (element, properties) => foldl(properties, (acc, property) => {
const val = get$a(element, property);
const value = val === undefined ? 0 : parseInt(val, 10);
return isNaN(value) ? acc : acc + value;
}, 0);
const max = (element, value, properties) => {
const cumulativeInclusions = aggregate(element, properties);
const absoluteMax = value > cumulativeInclusions ? value - cumulativeInclusions : 0;
return absoluteMax;
};
return {
set,
get,
getOuter,
aggregate,
max
};
};
const toNumber = (px, fallback) => toFloat(px).getOr(fallback);
const getProp = (element, name, fallback) => toNumber(get$a(element, name), fallback);
const calcContentBoxSize = (element, size, upper, lower) => {
const paddingUpper = getProp(element, `padding-${ upper }`, 0);
const paddingLower = getProp(element, `padding-${ lower }`, 0);
const borderUpper = getProp(element, `border-${ upper }-width`, 0);
const borderLower = getProp(element, `border-${ lower }-width`, 0);
return size - paddingUpper - paddingLower - borderUpper - borderLower;
};
const getCalculatedWidth = (element, boxSizing) => {
const dom = element.dom;
const width = dom.getBoundingClientRect().width || dom.offsetWidth;
return boxSizing === 'border-box' ? width : calcContentBoxSize(element, width, 'left', 'right');
};
const getHeight$1 = element => getProp(element, 'height', element.dom.offsetHeight);
const getWidth = element => getProp(element, 'width', element.dom.offsetWidth);
const getInnerWidth = element => getCalculatedWidth(element, 'content-box');
const api$2 = Dimension('width', element => element.dom.offsetWidth);
const get$9 = element => api$2.get(element);
const getOuter$2 = element => api$2.getOuter(element);
const getInner = getInnerWidth;
const getRuntime$1 = getWidth;
const addCells = (gridRow, index, cells) => {
const existingCells = gridRow.cells;
const before = existingCells.slice(0, index);
const after = existingCells.slice(index);
const newCells = before.concat(cells).concat(after);
return setCells(gridRow, newCells);
};
const addCell = (gridRow, index, cell) => addCells(gridRow, index, [cell]);
const mutateCell = (gridRow, index, cell) => {
const cells = gridRow.cells;
cells[index] = cell;
};
const setCells = (gridRow, cells) => rowcells(gridRow.element, cells, gridRow.section, gridRow.isNew);
const mapCells = (gridRow, f) => {
const cells = gridRow.cells;
const r = map$1(cells, f);
return rowcells(gridRow.element, r, gridRow.section, gridRow.isNew);
};
const getCell = (gridRow, index) => gridRow.cells[index];
const getCellElement = (gridRow, index) => getCell(gridRow, index).element;
const cellLength = gridRow => gridRow.cells.length;
const extractGridDetails = grid => {
const result = partition(grid, row => row.section === 'colgroup');
return {
rows: result.fail,
cols: result.pass
};
};
const clone = (gridRow, cloneRow, cloneCell) => {
const newCells = map$1(gridRow.cells, cloneCell);
return rowcells(cloneRow(gridRow.element), newCells, gridRow.section, true);
};
const LOCKED_COL_ATTR = 'data-snooker-locked-cols';
const getLockedColumnsFromTable = table => getOpt(table, LOCKED_COL_ATTR).bind(lockedColStr => Optional.from(lockedColStr.match(/\d+/g))).map(lockedCols => mapToObject(lockedCols, always));
const getLockedColumnsFromGrid = grid => {
const locked = foldl(extractGridDetails(grid).rows, (acc, row) => {
each$2(row.cells, (cell, idx) => {
if (cell.isLocked) {
acc[idx] = true;
}
});
return acc;
}, {});
const lockedArr = mapToArray(locked, (_val, key) => parseInt(key, 10));
return sort$1(lockedArr);
};
const key = (row, column) => {
return row + ',' + column;
};
const getAt = (warehouse, row, column) => Optional.from(warehouse.access[key(row, column)]);
const findItem = (warehouse, item, comparator) => {
const filtered = filterItems(warehouse, detail => {
return comparator(item, detail.element);
});
return filtered.length > 0 ? Optional.some(filtered[0]) : Optional.none();
};
const filterItems = (warehouse, predicate) => {
const all = bind$2(warehouse.all, r => {
return r.cells;
});
return filter$2(all, predicate);
};
const generateColumns = rowData => {
const columnsGroup = {};
let index = 0;
each$2(rowData.cells, column => {
const colspan = column.colspan;
range$1(colspan, columnIndex => {
const colIndex = index + columnIndex;
columnsGroup[colIndex] = columnext(column.element, colspan, colIndex);
});
index += colspan;
});
return columnsGroup;
};
const generate$1 = list => {
const access = {};
const cells = [];
const tableOpt = head(list).map(rowData => rowData.element).bind(table);
const lockedColumns = tableOpt.bind(getLockedColumnsFromTable).getOr({});
let maxRows = 0;
let maxColumns = 0;
let rowCount = 0;
const {
pass: colgroupRows,
fail: rows
} = partition(list, rowData => rowData.section === 'colgroup');
each$2(rows, rowData => {
const currentRow = [];
each$2(rowData.cells, rowCell => {
let start = 0;
while (access[key(rowCount, start)] !== undefined) {
start++;
}
const isLocked = hasNonNullableKey(lockedColumns, start.toString());
const current = extended(rowCell.element, rowCell.rowspan, rowCell.colspan, rowCount, start, isLocked);
for (let occupiedColumnPosition = 0; occupiedColumnPosition < rowCell.colspan; occupiedColumnPosition++) {
for (let occupiedRowPosition = 0; occupiedRowPosition < rowCell.rowspan; occupiedRowPosition++) {
const rowPosition = rowCount + occupiedRowPosition;
const columnPosition = start + occupiedColumnPosition;
const newpos = key(rowPosition, columnPosition);
access[newpos] = current;
maxColumns = Math.max(maxColumns, columnPosition + 1);
}
}
currentRow.push(current);
});
maxRows++;
cells.push(rowdetail(rowData.element, currentRow, rowData.section));
rowCount++;
});
const {columns, colgroups} = last$2(colgroupRows).map(rowData => {
const columns = generateColumns(rowData);
const colgroup$1 = colgroup(rowData.element, values(columns));
return {
colgroups: [colgroup$1],
columns
};
}).getOrThunk(() => ({
colgroups: [],
columns: {}
}));
const grid$1 = grid(maxRows, maxColumns);
return {
grid: grid$1,
access,
all: cells,
columns,
colgroups
};
};
const fromTable = table => {
const list = fromTable$1(table);
return generate$1(list);
};
const justCells = warehouse => bind$2(warehouse.all, w => w.cells);
const justColumns = warehouse => values(warehouse.columns);
const hasColumns = warehouse => keys(warehouse.columns).length > 0;
const getColumnAt = (warehouse, columnIndex) => Optional.from(warehouse.columns[columnIndex]);
const Warehouse = {
fromTable,
generate: generate$1,
getAt,
findItem,
filterItems,
justCells,
justColumns,
hasColumns,
getColumnAt
};
const columns = (warehouse, isValidCell = always) => {
const grid = warehouse.grid;
const cols = range$1(grid.columns, identity);
const rowsArr = range$1(grid.rows, identity);
return map$1(cols, col => {
const getBlock = () => bind$2(rowsArr, r => Warehouse.getAt(warehouse, r, col).filter(detail => detail.column === col).toArray());
const isValid = detail => detail.colspan === 1 && isValidCell(detail.element);
const getFallback = () => Warehouse.getAt(warehouse, 0, col);
return decide(getBlock, isValid, getFallback);
});
};
const decide = (getBlock, isValid, getFallback) => {
const inBlock = getBlock();
const validInBlock = find$1(inBlock, isValid);
const detailOption = validInBlock.orThunk(() => Optional.from(inBlock[0]).orThunk(getFallback));
return detailOption.map(detail => detail.element);
};
const rows = warehouse => {
const grid = warehouse.grid;
const rowsArr = range$1(grid.rows, identity);
const cols = range$1(grid.columns, identity);
return map$1(rowsArr, row => {
const getBlock = () => bind$2(cols, c => Warehouse.getAt(warehouse, row, c).filter(detail => detail.row === row).fold(constant([]), detail => [detail]));
const isSingle = detail => detail.rowspan === 1;
const getFallback = () => Warehouse.getAt(warehouse, row, 0);
return decide(getBlock, isSingle, getFallback);
});
};
const deduce = (xs, index) => {
if (index < 0 || index >= xs.length - 1) {
return Optional.none();
}
const current = xs[index].fold(() => {
const rest = reverse(xs.slice(0, index));
return findMap(rest, (a, i) => a.map(aa => ({
value: aa,
delta: i + 1
})));
}, c => Optional.some({
value: c,
delta: 0
}));
const next = xs[index + 1].fold(() => {
const rest = xs.slice(index + 1);
return findMap(rest, (a, i) => a.map(aa => ({
value: aa,
delta: i + 1
})));
}, n => Optional.some({
value: n,
delta: 1
}));
return current.bind(c => next.map(n => {
const extras = n.delta + c.delta;
return Math.abs(n.value - c.value) / extras;
}));
};
const onDirection = (isLtr, isRtl) => element => getDirection(element) === 'rtl' ? isRtl : isLtr;
const getDirection = element => get$a(element, 'direction') === 'rtl' ? 'rtl' : 'ltr';
const api$1 = Dimension('height', element => {
const dom = element.dom;
return inBody(element) ? dom.getBoundingClientRect().height : dom.offsetHeight;
});
const get$8 = element => api$1.get(element);
const getOuter$1 = element => api$1.getOuter(element);
const getRuntime = getHeight$1;
const r = (left, top) => {
const translate = (x, y) => r(left + x, top + y);
return {
left,
top,
translate
};
};
const SugarPosition = r;
const boxPosition = dom => {
const box = dom.getBoundingClientRect();
return SugarPosition(box.left, box.top);
};
const firstDefinedOrZero = (a, b) => {
if (a !== undefined) {
return a;
} else {
return b !== undefined ? b : 0;
}
};
const absolute = element => {
const doc = element.dom.ownerDocument;
const body = doc.body;
const win = doc.defaultView;
const html = doc.documentElement;
if (body === element.dom) {
return SugarPosition(body.offsetLeft, body.offsetTop);
}
const scrollTop = firstDefinedOrZero(win === null || win === void 0 ? void 0 : win.pageYOffset, html.scrollTop);
const scrollLeft = firstDefinedOrZero(win === null || win === void 0 ? void 0 : win.pageXOffset, html.scrollLeft);
const clientTop = firstDefinedOrZero(html.clientTop, body.clientTop);
const clientLeft = firstDefinedOrZero(html.clientLeft, body.clientLeft);
return viewport(element).translate(scrollLeft - clientLeft, scrollTop - clientTop);
};
const viewport = element => {
const dom = element.dom;
const doc = dom.ownerDocument;
const body = doc.body;
if (body === dom) {
return SugarPosition(body.offsetLeft, body.offsetTop);
}
if (!inBody(element)) {
return SugarPosition(0, 0);
}
return boxPosition(dom);
};
const rowInfo = (row, y) => ({
row,
y
});
const colInfo = (col, x) => ({
col,
x
});
const rtlEdge = cell => {
const pos = absolute(cell);
return pos.left + getOuter$2(cell);
};
const ltrEdge = cell => {
return absolute(cell).left;
};
const getLeftEdge = (index, cell) => {
return colInfo(index, ltrEdge(cell));
};
const getRightEdge = (index, cell) => {
return colInfo(index, rtlEdge(cell));
};
const getTop$1 = cell => {
return absolute(cell).top;
};
const getTopEdge = (index, cell) => {
return rowInfo(index, getTop$1(cell));
};
const getBottomEdge = (index, cell) => {
return rowInfo(index, getTop$1(cell) + getOuter$1(cell));
};
const findPositions = (getInnerEdge, getOuterEdge, array) => {
if (array.length === 0) {
return [];
}
const lines = map$1(array.slice(1), (cellOption, index) => {
return cellOption.map(cell => {
return getInnerEdge(index, cell);
});
});
const lastLine = array[array.length - 1].map(cell => {
return getOuterEdge(array.length - 1, cell);
});
return lines.concat([lastLine]);
};
const negate = step => {
return -step;
};
const height = {
delta: identity,
positions: optElements => findPositions(getTopEdge, getBottomEdge, optElements),
edge: getTop$1
};
const ltr$1 = {
delta: identity,
edge: ltrEdge,
positions: optElements => findPositions(getLeftEdge, getRightEdge, optElements)
};
const rtl$1 = {
delta: negate,
edge: rtlEdge,
positions: optElements => findPositions(getRightEdge, getLeftEdge, optElements)
};
const detect$1 = onDirection(ltr$1, rtl$1);
const width = {
delta: (amount, table) => detect$1(table).delta(amount, table),
positions: (cols, table) => detect$1(table).positions(cols, table),
edge: cell => detect$1(cell).edge(cell)
};
const units = {
unsupportedLength: [
'em',
'ex',
'cap',
'ch',
'ic',
'rem',
'lh',
'rlh',
'vw',
'vh',
'vi',
'vb',
'vmin',
'vmax',
'cm',
'mm',
'Q',
'in',
'pc',
'pt',
'px'
],
fixed: [
'px',
'pt'
],
relative: ['%'],
empty: ['']
};
const pattern = (() => {
const decimalDigits = '[0-9]+';
const signedInteger = '[+-]?' + decimalDigits;
const exponentPart = '[eE]' + signedInteger;
const dot = '\\.';
const opt = input => `(?:${ input })?`;
const unsignedDecimalLiteral = [
'Infinity',
decimalDigits + dot + opt(decimalDigits) + opt(exponentPart),
dot + decimalDigits + opt(exponentPart),
decimalDigits + opt(exponentPart)
].join('|');
const float = `[+-]?(?:${ unsignedDecimalLiteral })`;
return new RegExp(`^(${ float })(.*)$`);
})();
const isUnit = (unit, accepted) => exists(accepted, acc => exists(units[acc], check => unit === check));
const parse = (input, accepted) => {
const match = Optional.from(pattern.exec(input));
return match.bind(array => {
const value = Number(array[1]);
const unitRaw = array[2];
if (isUnit(unitRaw, accepted)) {
return Optional.some({
value,
unit: unitRaw
});
} else {
return Optional.none();
}
});
};
const rPercentageBasedSizeRegex = /(\d+(\.\d+)?)%/;
const rPixelBasedSizeRegex = /(\d+(\.\d+)?)px|em/;
const isCol$2 = isTag('col');
const isRow$2 = isTag('tr');
const getPercentSize = (elm, outerGetter, innerGetter) => {
const relativeParent = parentElement(elm).getOrThunk(() => getBody$1(owner(elm)));
return outerGetter(elm) / innerGetter(relativeParent) * 100;
};
const setPixelWidth = (cell, amount) => {
set$1(cell, 'width', amount + 'px');
};
const setPercentageWidth = (cell, amount) => {
set$1(cell, 'width', amount + '%');
};
const setHeight = (cell, amount) => {
set$1(cell, 'height', amount + 'px');
};
const removeHeight = cell => {
remove$5(cell, 'height');
};
const getHeightValue = cell => getRuntime(cell) + 'px';
const convert = (cell, number, getter, setter) => {
const newSize = table(cell).map(table => {
const total = getter(table);
return Math.floor(number / 100 * total);
}).getOr(number);
setter(cell, newSize);
return newSize;
};
const normalizePixelSize = (value, cell, getter, setter) => {
const number = parseFloat(value);
return endsWith(value, '%') && name(cell) !== 'table' ? convert(cell, number, getter, setter) : number;
};
const getTotalHeight = cell => {
const value = getHeightValue(cell);
if (!value) {
return get$8(cell);
}
return normalizePixelSize(value, cell, get$8, setHeight);
};
const get$7 = (cell, type, f) => {
const v = f(cell);
const span = getSpan(cell, type);
return v / span;
};
const getRaw$1 = (element, prop) => {
return getRaw$2(element, prop).orThunk(() => {
return getOpt(element, prop).map(val => val + 'px');
});
};
const getRawWidth$1 = element => getRaw$1(element, 'width');
const getRawHeight$1 = element => getRaw$1(element, 'height');
const getPercentageWidth = cell => getPercentSize(cell, get$9, getInner);
const getPixelWidth$1 = cell => isCol$2(cell) ? get$9(cell) : getRuntime$1(cell);
const getHeight = cell => {
return isRow$2(cell) ? get$8(cell) : get$7(cell, 'rowspan', getTotalHeight);
};
const getGenericWidth = cell => {
const width = getRawWidth$1(cell);
return width.bind(w => parse(w, [
'fixed',
'relative',
'empty'
]));
};
const setGenericWidth = (cell, amount, unit) => {
set$1(cell, 'width', amount + unit);
};
const getPixelTableWidth = table => get$9(table) + 'px';
const getPixelTableHeight = table => get$8(table) + 'px';
const getPercentTableWidth = table => getPercentSize(table, get$9, getInner) + '%';
const isPercentSizing$1 = table => getRawWidth$1(table).exists(size => rPercentageBasedSizeRegex.test(size));
const isPixelSizing$1 = table => getRawWidth$1(table).exists(size => rPixelBasedSizeRegex.test(size));
const isNoneSizing$1 = table => getRawWidth$1(table).isNone();
const percentageBasedSizeRegex = constant(rPercentageBasedSizeRegex);
const isCol$1 = isTag('col');
const getRawW = cell => {
return getRawWidth$1(cell).getOrThunk(() => getPixelWidth$1(cell) + 'px');
};
const getRawH = cell => {
return getRawHeight$1(cell).getOrThunk(() => getHeight(cell) + 'px');
};
const justCols = warehouse => map$1(Warehouse.justColumns(warehouse), column => Optional.from(column.element));
const isValidColumn = cell => {
const browser = detect$2().browser;
const supportsColWidths = browser.isChromium() || browser.isFirefox();
return isCol$1(cell) ? supportsColWidths : true;
};
const getDimension = (cellOpt, index, backups, filter, getter, fallback) => cellOpt.filter(filter).fold(() => fallback(deduce(backups, index)), cell => getter(cell));
const getWidthFrom = (warehouse, table, getWidth, fallback) => {
const columnCells = columns(warehouse);
const columns$1 = Warehouse.hasColumns(warehouse) ? justCols(warehouse) : columnCells;
const backups = [Optional.some(width.edge(table))].concat(map$1(width.positions(columnCells, table), pos => pos.map(p => p.x)));
const colFilter = not(hasColspan);
return map$1(columns$1, (cellOption, c) => {
return getDimension(cellOption, c, backups, colFilter, column => {
if (isValidColumn(column)) {
return getWidth(column);
} else {
const cell = bindFrom(columnCells[c], identity);
return getDimension(cell, c, backups, colFilter, cell => fallback(Optional.some(get$9(cell))), fallback);
}
}, fallback);
});
};
const getDeduced = deduced => {
return deduced.map(d => {
return d + 'px';
}).getOr('');
};
const getRawWidths = (warehouse, table) => {
return getWidthFrom(warehouse, table, getRawW, getDeduced);
};
const getPercentageWidths = (warehouse, table, tableSize) => {
return getWidthFrom(warehouse, table, getPercentageWidth, deduced => {
return deduced.fold(() => {
return tableSize.minCellWidth();
}, cellWidth => {
return cellWidth / tableSize.pixelWidth() * 100;
});
});
};
const getPixelWidths = (warehouse, table, tableSize) => {
return getWidthFrom(warehouse, table, getPixelWidth$1, deduced => {
return deduced.getOrThunk(tableSize.minCellWidth);
});
};
const getHeightFrom = (warehouse, table, getHeight, fallback) => {
const rowCells = rows(warehouse);
const rows$1 = map$1(warehouse.all, r => Optional.some(r.element));
const backups = [Optional.some(height.edge(table))].concat(map$1(height.positions(rowCells, table), pos => pos.map(p => p.y)));
return map$1(rows$1, (row, i) => getDimension(row, i, backups, always, getHeight, fallback));
};
const getPixelHeights = (warehouse, table) => {
return getHeightFrom(warehouse, table, getHeight, deduced => {
return deduced.getOrThunk(minHeight);
});
};
const getRawHeights = (warehouse, table) => {
return getHeightFrom(warehouse, table, getRawH, getDeduced);
};
const widthLookup = (table, getter) => () => {
if (inBody(table)) {
return getter(table);
} else {
return parseFloat(getRaw$2(table, 'width').getOr('0'));
}
};
const noneSize = table => {
const getWidth = widthLookup(table, get$9);
const zero = constant(0);
const getWidths = (warehouse, tableSize) => getPixelWidths(warehouse, table, tableSize);
return {
width: getWidth,
pixelWidth: getWidth,
getWidths,
getCellDelta: zero,
singleColumnWidth: constant([0]),
minCellWidth: zero,
setElementWidth: noop,
adjustTableWidth: noop,
isRelative: true,
label: 'none'
};
};
const percentageSize = table => {
const getFloatWidth = widthLookup(table, elem => parseFloat(getPercentTableWidth(elem)));
const getWidth = widthLookup(table, get$9);
const getCellDelta = delta => delta / getWidth() * 100;
const singleColumnWidth = (w, _delta) => [100 - w];
const minCellWidth = () => minWidth() / getWidth() * 100;
const adjustTableWidth = delta => {
const currentWidth = getFloatWidth();
const change = delta / 100 * currentWidth;
const newWidth = currentWidth + change;
setPercentageWidth(table, newWidth);
};
const getWidths = (warehouse, tableSize) => getPercentageWidths(warehouse, table, tableSize);
return {
width: getFloatWidth,
pixelWidth: getWidth,
getWidths,
getCellDelta,
singleColumnWidth,
minCellWidth,
setElementWidth: setPercentageWidth,
adjustTableWidth,
isRelative: true,
label: 'percent'
};
};
const pixelSize = table => {
const getWidth = widthLookup(table, get$9);
const getCellDelta = identity;
const singleColumnWidth = (w, delta) => {
const newNext = Math.max(minWidth(), w + delta);
return [newNext - w];
};
const adjustTableWidth = delta => {
const newWidth = getWidth() + delta;
setPixelWidth(table, newWidth);
};
const getWidths = (warehouse, tableSize) => getPixelWidths(warehouse, table, tableSize);
return {
width: getWidth,
pixelWidth: getWidth,
getWidths,
getCellDelta,
singleColumnWidth,
minCellWidth: minWidth,
setElementWidth: setPixelWidth,
adjustTableWidth,
isRelative: false,
label: 'pixel'
};
};
const chooseSize = (element, width) => {
const percentMatch = percentageBasedSizeRegex().exec(width);
if (percentMatch !== null) {
return percentageSize(element);
} else {
return pixelSize(element);
}
};
const getTableSize = table => {
const width = getRawWidth$1(table);
return width.fold(() => noneSize(table), w => chooseSize(table, w));
};
const TableSize = {
getTableSize,
pixelSize,
percentageSize,
noneSize
};
const statsStruct = (minRow, minCol, maxRow, maxCol, allCells, selectedCells) => ({
minRow,
minCol,
maxRow,
maxCol,
allCells,
selectedCells
});
const findSelectedStats = (house, isSelected) => {
const totalColumns = house.grid.columns;
const totalRows = house.grid.rows;
let minRow = totalRows;
let minCol = totalColumns;
let maxRow = 0;
let maxCol = 0;
const allCells = [];
const selectedCells = [];
each$1(house.access, detail => {
allCells.push(detail);
if (isSelected(detail)) {
selectedCells.push(detail);
const startRow = detail.row;
const endRow = startRow + detail.rowspan - 1;
const startCol = detail.column;
const endCol = startCol + detail.colspan - 1;
if (startRow < minRow) {
minRow = startRow;
} else if (endRow > maxRow) {
maxRow = endRow;
}
if (startCol < minCol) {
minCol = startCol;
} else if (endCol > maxCol) {
maxCol = endCol;
}
}
});
return statsStruct(minRow, minCol, maxRow, maxCol, allCells, selectedCells);
};
const makeCell = (list, seenSelected, rowIndex) => {
const row = list[rowIndex].element;
const td = SugarElement.fromTag('td');
append$1(td, SugarElement.fromTag('br'));
const f = seenSelected ? append$1 : prepend;
f(row, td);
};
const fillInGaps = (list, house, stats, isSelected) => {
const rows = filter$2(list, row => row.section !== 'colgroup');
const totalColumns = house.grid.columns;
const totalRows = house.grid.rows;
for (let i = 0; i < totalRows; i++) {
let seenSelected = false;
for (let j = 0; j < totalColumns; j++) {
if (!(i < stats.minRow || i > stats.maxRow || j < stats.minCol || j > stats.maxCol)) {
const needCell = Warehouse.getAt(house, i, j).filter(isSelected).isNone();
if (needCell) {
makeCell(rows, seenSelected, i);
} else {
seenSelected = true;
}
}
}
}
};
const clean = (replica, stats, house, widthDelta) => {
each$1(house.columns, col => {
if (col.column < stats.minCol || col.column > stats.maxCol) {
remove$6(col.element);
}
});
const emptyRows = filter$2(firstLayer(replica, 'tr'), row => row.dom.childElementCount === 0);
each$2(emptyRows, remove$6);
if (stats.minCol === stats.maxCol || stats.minRow === stats.maxRow) {
each$2(firstLayer(replica, 'th,td'), cell => {
remove$7(cell, 'rowspan');
remove$7(cell, 'colspan');
});
}
remove$7(replica, LOCKED_COL_ATTR);
remove$7(replica, 'data-snooker-col-series');
const tableSize = TableSize.getTableSize(replica);
tableSize.adjustTableWidth(widthDelta);
};
const getTableWidthDelta = (table, warehouse, tableSize, stats) => {
if (stats.minCol === 0 && warehouse.grid.columns === stats.maxCol + 1) {
return 0;
}
const colWidths = getPixelWidths(warehouse, table, tableSize);
const allColsWidth = foldl(colWidths, (acc, width) => acc + width, 0);
const selectedColsWidth = foldl(colWidths.slice(stats.minCol, stats.maxCol + 1), (acc, width) => acc + width, 0);
const newWidth = selectedColsWidth / allColsWidth * tableSize.pixelWidth();
const delta = newWidth - tableSize.pixelWidth();
return tableSize.getCellDelta(delta);
};
const extract$1 = (table, selectedSelector) => {
const isSelected = detail => is$2(detail.element, selectedSelector);
const replica = deep(table);
const list = fromTable$1(replica);
const tableSize = TableSize.getTableSize(table);
const replicaHouse = Warehouse.generate(list);
const replicaStats = findSelectedStats(replicaHouse, isSelected);
const selector = 'th:not(' + selectedSelector + ')' + ',td:not(' + selectedSelector + ')';
const unselectedCells = filterFirstLayer(replica, 'th,td', cell => is$2(cell, selector));
each$2(unselectedCells, remove$6);
fillInGaps(list, replicaHouse, replicaStats, isSelected);
const house = Warehouse.fromTable(table);
const widthDelta = getTableWidthDelta(table, house, tableSize, replicaStats);
clean(replica, replicaStats, replicaHouse, widthDelta);
return replica;
};
const nbsp = '\xA0';
const NodeValue = (is, name) => {
const get = element => {
if (!is(element)) {
throw new Error('Can only get ' + name + ' value of a ' + name + ' node');
}
return getOption(element).getOr('');
};
const getOption = element => is(element) ? Optional.from(element.dom.nodeValue) : Optional.none();
const set = (element, value) => {
if (!is(element)) {
throw new Error('Can only set raw ' + name + ' value of a ' + name + ' node');
}
element.dom.nodeValue = value;
};
return {
get,
getOption,
set
};
};
const api = NodeValue(isText, 'text');
const get$6 = element => api.get(element);
const getOption = element => api.getOption(element);
const set = (element, value) => api.set(element, value);
const getEnd = element => name(element) === 'img' ? 1 : getOption(element).fold(() => children$2(element).length, v => v.length);
const isTextNodeWithCursorPosition = el => getOption(el).filter(text => text.trim().length !== 0 || text.indexOf(nbsp) > -1).isSome();
const isContentEditableFalse = elem => isHTMLElement(elem) && get$b(elem, 'contenteditable') === 'false';
const elementsWithCursorPosition = [
'img',
'br'
];
const isCursorPosition = elem => {
const hasCursorPosition = isTextNodeWithCursorPosition(elem);
return hasCursorPosition || contains$2(elementsWithCursorPosition, name(elem)) || isContentEditableFalse(elem);
};
const first = element => descendant$1(element, isCursorPosition);
const last$1 = element => descendantRtl(element, isCursorPosition);
const descendantRtl = (scope, predicate) => {
const descend = element => {
const children = children$2(element);
for (let i = children.length - 1; i >= 0; i--) {
const child = children[i];
if (predicate(child)) {
return Optional.some(child);
}
const res = descend(child);
if (res.isSome()) {
return res;
}
}
return Optional.none();
};
return descend(scope);
};
const transferableAttributes = {
scope: [
'row',
'col'
]
};
const createCell = doc => () => {
const td = SugarElement.fromTag('td', doc.dom);
append$1(td, SugarElement.fromTag('br', doc.dom));
return td;
};
const createCol = doc => () => {
return SugarElement.fromTag('col', doc.dom);
};
const createColgroup = doc => () => {
return SugarElement.fromTag('colgroup', doc.dom);
};
const createRow$1 = doc => () => {
return SugarElement.fromTag('tr', doc.dom);
};
const replace$1 = (cell, tag, attrs) => {
const replica = copy$2(cell, tag);
each$1(attrs, (v, k) => {
if (v === null) {
remove$7(replica, k);
} else {
set$2(replica, k, v);
}
});
return replica;
};
const pasteReplace = cell => {
return cell;
};
const cloneFormats = (oldCell, newCell, formats) => {
const first$1 = first(oldCell);
return first$1.map(firstText => {
const formatSelector = formats.join(',');
const parents = ancestors$3(firstText, formatSelector, element => {
return eq$1(element, oldCell);
});
return foldr(parents, (last, parent) => {
const clonedFormat = shallow(parent);
append$1(last, clonedFormat);
return clonedFormat;
}, newCell);
}).getOr(newCell);
};
const cloneAppropriateAttributes = (original, clone) => {
each$1(transferableAttributes, (validAttributes, attributeName) => getOpt(original, attributeName).filter(attribute => contains$2(validAttributes, attribute)).each(attribute => set$2(clone, attributeName, attribute)));
};
const cellOperations = (mutate, doc, formatsToClone) => {
const cloneCss = (prev, clone) => {
copy$1(prev.element, clone);
remove$5(clone, 'height');
if (prev.colspan !== 1) {
remove$5(clone, 'width');
}
};
const newCell = prev => {
const td = SugarElement.fromTag(name(prev.element), doc.dom);
const formats = formatsToClone.getOr([
'strong',
'em',
'b',
'i',
'span',
'font',
'h1',
'h2',
'h3',
'h4',
'h5',
'h6',
'p',
'div'
]);
const lastNode = formats.length > 0 ? cloneFormats(prev.element, td, formats) : td;
append$1(lastNode, SugarElement.fromTag('br'));
cloneCss(prev, td);
cloneAppropriateAttributes(prev.element, td);
mutate(prev.element, td);
return td;
};
const newCol = prev => {
const col = SugarElement.fromTag(name(prev.element), doc.dom);
cloneCss(prev, col);
mutate(prev.element, col);
return col;
};
return {
col: newCol,
colgroup: createColgroup(doc),
row: createRow$1(doc),
cell: newCell,
replace: replace$1,
colGap: createCol(doc),
gap: createCell(doc)
};
};
const paste$1 = doc => {
return {
col: createCol(doc),
colgroup: createColgroup(doc),
row: createRow$1(doc),
cell: createCell(doc),
replace: pasteReplace,
colGap: createCol(doc),
gap: createCell(doc)
};
};
const fromHtml = (html, scope) => {
const doc = scope || document;
const div = doc.createElement('div');
div.innerHTML = html;
return children$2(SugarElement.fromDom(div));
};
const fromDom = nodes => map$1(nodes, SugarElement.fromDom);
const option = name => editor => editor.options.get(name);
const defaultWidth = '100%';
const getPixelForcedWidth = editor => {
var _a;
const dom = editor.dom;
const parentBlock = (_a = dom.getParent(editor.selection.getStart(), dom.isBlock)) !== null && _a !== void 0 ? _a : editor.getBody();
return getInner(SugarElement.fromDom(parentBlock)) + 'px';
};
const determineDefaultTableStyles = (editor, defaultStyles) => {
if (isTableResponsiveForced(editor) || !shouldStyleWithCss(editor)) {
return defaultStyles;
} else if (isTablePixelsForced(editor)) {
return {
...defaultStyles,
width: getPixelForcedWidth(editor)
};
} else {
return {
...defaultStyles,
width: defaultWidth
};
}
};
const determineDefaultTableAttributes = (editor, defaultAttributes) => {
if (isTableResponsiveForced(editor) || shouldStyleWithCss(editor)) {
return defaultAttributes;
} else if (isTablePixelsForced(editor)) {
return {
...defaultAttributes,
width: getPixelForcedWidth(editor)
};
} else {
return {
...defaultAttributes,
width: defaultWidth
};
}
};
const register = editor => {
const registerOption = editor.options.register;
registerOption('table_clone_elements', { processor: 'string[]' });
registerOption('table_use_colgroups', {
processor: 'boolean',
default: true
});
registerOption('table_header_type', {
processor: value => {
const valid = contains$2([
'section',
'cells',
'sectionCells',
'auto'
], value);
return valid ? {
value,
valid
} : {
valid: false,
message: 'Must be one of: section, cells, sectionCells or auto.'
};
},
default: 'section'
});
registerOption('table_sizing_mode', {
processor: 'string',
default: 'auto'
});
registerOption('table_default_attributes', {
processor: 'object',
default: { border: '1' }
});
registerOption('table_default_styles', {
processor: 'object',
default: { 'border-collapse': 'collapse' }
});
registerOption('table_column_resizing', {
processor: value => {
const valid = contains$2([
'preservetable',
'resizetable'
], value);
return valid ? {
value,
valid
} : {
valid: false,
message: 'Must be preservetable, or resizetable.'
};
},
default: 'preservetable'
});
registerOption('table_resize_bars', {
processor: 'boolean',
default: true
});
registerOption('table_style_by_css', {
processor: 'boolean',
default: true
});
registerOption('table_merge_content_on_paste', {
processor: 'boolean',
default: true
});
};
const getTableCloneElements = editor => {
return Optional.from(editor.options.get('table_clone_elements'));
};
const hasTableObjectResizing = editor => {
const objectResizing = editor.options.get('object_resizing');
return contains$2(objectResizing.split(','), 'table');
};
const getTableHeaderType = option('table_header_type');
const getTableColumnResizingBehaviour = option('table_column_resizing');
const isPreserveTableColumnResizing = editor => getTableColumnResizingBehaviour(editor) === 'preservetable';
const isResizeTableColumnResizing = editor => getTableColumnResizingBehaviour(editor) === 'resizetable';
const getTableSizingMode = option('table_sizing_mode');
const isTablePercentagesForced = editor => getTableSizingMode(editor) === 'relative';
const isTablePixelsForced = editor => getTableSizingMode(editor) === 'fixed';
const isTableResponsiveForced = editor => getTableSizingMode(editor) === 'responsive';
const hasTableResizeBars = option('table_resize_bars');
const shouldStyleWithCss = option('table_style_by_css');
const shouldMergeContentOnPaste = option('table_merge_content_on_paste');
const getTableDefaultAttributes = editor => {
const options = editor.options;
const defaultAttributes = options.get('table_default_attributes');
return options.isSet('table_default_attributes') ? defaultAttributes : determineDefaultTableAttributes(editor, defaultAttributes);
};
const getTableDefaultStyles = editor => {
const options = editor.options;
const defaultStyles = options.get('table_default_styles');
return options.isSet('table_default_styles') ? defaultStyles : determineDefaultTableStyles(editor, defaultStyles);
};
const tableUseColumnGroup = option('table_use_colgroups');
const closest = target => closest$1(target, '[contenteditable]');
const isEditable$1 = (element, assumeEditable = false) => {
if (inBody(element)) {
return element.dom.isContentEditable;
} else {
return closest(element).fold(constant(assumeEditable), editable => getRaw(editable) === 'true');
}
};
const getRaw = element => element.dom.contentEditable;
const getBody = editor => SugarElement.fromDom(editor.getBody());
const getIsRoot = editor => element => eq$1(element, getBody(editor));
const removeDataStyle = table => {
remove$7(table, 'data-mce-style');
const removeStyleAttribute = element => remove$7(element, 'data-mce-style');
each$2(cells$1(table), removeStyleAttribute);
each$2(columns$1(table), removeStyleAttribute);
each$2(rows$1(table), removeStyleAttribute);
};
const getSelectionStart = editor => SugarElement.fromDom(editor.selection.getStart());
const getPixelWidth = elm => elm.getBoundingClientRect().width;
const getPixelHeight = elm => elm.getBoundingClientRect().height;
const getRawValue = prop => (editor, elm) => {
const raw = editor.dom.getStyle(elm, prop) || editor.dom.getAttrib(elm, prop);
return Optional.from(raw).filter(isNotEmpty);
};
const getRawWidth = getRawValue('width');
const getRawHeight = getRawValue('height');
const isPercentage$1 = value => /^(\d+(\.\d+)?)%$/.test(value);
const isPixel = value => /^(\d+(\.\d+)?)px$/.test(value);
const isInEditableContext$1 = cell => closest$2(cell, isTag('table')).exists(isEditable$1);
const inSelection = (bounds, detail) => {
const leftEdge = detail.column;
const rightEdge = detail.column + detail.colspan - 1;
const topEdge = detail.row;
const bottomEdge = detail.row + detail.rowspan - 1;
return leftEdge <= bounds.finishCol && rightEdge >= bounds.startCol && (topEdge <= bounds.finishRow && bottomEdge >= bounds.startRow);
};
const isWithin = (bounds, detail) => {
return detail.column >= bounds.startCol && detail.column + detail.colspan - 1 <= bounds.finishCol && detail.row >= bounds.startRow && detail.row + detail.rowspan - 1 <= bounds.finishRow;
};
const isRectangular = (warehouse, bounds) => {
let isRect = true;
const detailIsWithin = curry(isWithin, bounds);
for (let i = bounds.startRow; i <= bounds.finishRow; i++) {
for (let j = bounds.startCol; j <= bounds.finishCol; j++) {
isRect = isRect && Warehouse.getAt(warehouse, i, j).exists(detailIsWithin);
}
}
return isRect ? Optional.some(bounds) : Optional.none();
};
const getBounds = (detailA, detailB) => {
return bounds(Math.min(detailA.row, detailB.row), Math.min(detailA.column, detailB.column), Math.max(detailA.row + detailA.rowspan - 1, detailB.row + detailB.rowspan - 1), Math.max(detailA.column + detailA.colspan - 1, detailB.column + detailB.colspan - 1));
};
const getAnyBox = (warehouse, startCell, finishCell) => {
const startCoords = Warehouse.findItem(warehouse, startCell, eq$1);
const finishCoords = Warehouse.findItem(warehouse, finishCell, eq$1);
return startCoords.bind(sc => {
return finishCoords.map(fc => {
return getBounds(sc, fc);
});
});
};
const getBox$1 = (warehouse, startCell, finishCell) => {
return getAnyBox(warehouse, startCell, finishCell).bind(bounds => {
return isRectangular(warehouse, bounds);
});
};
const moveBy$1 = (warehouse, cell, row, column) => {
return Warehouse.findItem(warehouse, cell, eq$1).bind(detail => {
const startRow = row > 0 ? detail.row + detail.rowspan - 1 : detail.row;
const startCol = column > 0 ? detail.column + detail.colspan - 1 : detail.column;
const dest = Warehouse.getAt(warehouse, startRow + row, startCol + column);
return dest.map(d => {
return d.element;
});
});
};
const intercepts$1 = (warehouse, start, finish) => {
return getAnyBox(warehouse, start, finish).map(bounds => {
const inside = Warehouse.filterItems(warehouse, curry(inSelection, bounds));
return map$1(inside, detail => {
return detail.element;
});
});
};
const parentCell = (warehouse, innerCell) => {
const isContainedBy = (c1, c2) => {
return contains$1(c2, c1);
};
return Warehouse.findItem(warehouse, innerCell, isContainedBy).map(detail => {
return detail.element;
});
};
const moveBy = (cell, deltaRow, deltaColumn) => {
return table(cell).bind(table => {
const warehouse = getWarehouse(table);
return moveBy$1(warehouse, cell, deltaRow, deltaColumn);
});
};
const intercepts = (table, first, last) => {
const warehouse = getWarehouse(table);
return intercepts$1(warehouse, first, last);
};
const nestedIntercepts = (table, first, firstTable, last, lastTable) => {
const warehouse = getWarehouse(table);
const optStartCell = eq$1(table, firstTable) ? Optional.some(first) : parentCell(warehouse, first);
const optLastCell = eq$1(table, lastTable) ? Optional.some(last) : parentCell(warehouse, last);
return optStartCell.bind(startCell => optLastCell.bind(lastCell => intercepts$1(warehouse, startCell, lastCell)));
};
const getBox = (table, first, last) => {
const warehouse = getWarehouse(table);
return getBox$1(warehouse, first, last);
};
const getWarehouse = Warehouse.fromTable;
var TagBoundaries = [
'body',
'p',
'div',
'article',
'aside',
'figcaption',
'figure',
'footer',
'header',
'nav',
'section',
'ol',
'ul',
'li',
'table',
'thead',
'tbody',
'tfoot',
'caption',
'tr',
'td',
'th',
'h1',
'h2',
'h3',
'h4',
'h5',
'h6',
'blockquote',
'pre',
'address'
];
var DomUniverse = () => {
const clone = element => {
return SugarElement.fromDom(element.dom.cloneNode(false));
};
const document = element => documentOrOwner(element).dom;
const isBoundary = element => {
if (!isElement(element)) {
return false;
}
if (name(element) === 'body') {
return true;
}
return contains$2(TagBoundaries, name(element));
};
const isEmptyTag = element => {
if (!isElement(element)) {
return false;
}
return contains$2([
'br',
'img',
'hr',
'input'
], name(element));
};
const isNonEditable = element => isElement(element) && get$b(element, 'contenteditable') === 'false';
const comparePosition = (element, other) => {
return element.dom.compareDocumentPosition(other.dom);
};
const copyAttributesTo = (source, destination) => {
const as = clone$2(source);
setAll$1(destination, as);
};
const isSpecial = element => {
const tag = name(element);
return contains$2([
'script',
'noscript',
'iframe',
'noframes',
'noembed',
'title',
'style',
'textarea',
'xmp'
], tag);
};
const getLanguage = element => isElement(element) ? getOpt(element, 'lang') : Optional.none();
return {
up: constant({
selector: ancestor$1,
closest: closest$1,
predicate: ancestor$2,
all: parents
}),
down: constant({
selector: descendants,
predicate: descendants$1
}),
styles: constant({
get: get$a,
getRaw: getRaw$2,
set: set$1,
remove: remove$5
}),
attrs: constant({
get: get$b,
set: set$2,
remove: remove$7,
copyTo: copyAttributesTo
}),
insert: constant({
before: before$3,
after: after$5,
afterAll: after$4,
append: append$1,
appendAll: append,
prepend: prepend,
wrap: wrap
}),
remove: constant({
unwrap: unwrap,
remove: remove$6
}),
create: constant({
nu: SugarElement.fromTag,
clone,
text: SugarElement.fromText
}),
query: constant({
comparePosition,
prevSibling: prevSibling,
nextSibling: nextSibling
}),
property: constant({
children: children$2,
name: name,
parent: parent,
document,
isText: isText,
isComment: isComment,
isElement: isElement,
isSpecial,
getLanguage,
getText: get$6,
setText: set,
isBoundary,
isEmptyTag,
isNonEditable
}),
eq: eq$1,
is: is$1
};
};
const all = (universe, look, elements, f) => {
const head = elements[0];
const tail = elements.slice(1);
return f(universe, look, head, tail);
};
const oneAll = (universe, look, elements) => {
return elements.length > 0 ? all(universe, look, elements, unsafeOne) : Optional.none();
};
const unsafeOne = (universe, look, head, tail) => {
const start = look(universe, head);
return foldr(tail, (b, a) => {
const current = look(universe, a);
return commonElement(universe, b, current);
}, start);
};
const commonElement = (universe, start, end) => {
return start.bind(s => {
return end.filter(curry(universe.eq, s));
});
};
const eq = (universe, item) => {
return curry(universe.eq, item);
};
const ancestors$2 = (universe, start, end, isRoot = never) => {
const ps1 = [start].concat(universe.up().all(start));
const ps2 = [end].concat(universe.up().all(end));
const prune = path => {
const index = findIndex(path, isRoot);
return index.fold(() => {
return path;
}, ind => {
return path.slice(0, ind + 1);
});
};
const pruned1 = prune(ps1);
const pruned2 = prune(ps2);
const shared = find$1(pruned1, x => {
return exists(pruned2, eq(universe, x));
});
return {
firstpath: pruned1,
secondpath: pruned2,
shared
};
};
const sharedOne$1 = oneAll;
const ancestors$1 = ancestors$2;
const universe$3 = DomUniverse();
const sharedOne = (look, elements) => {
return sharedOne$1(universe$3, (_universe, element) => {
return look(element);
}, elements);
};
const ancestors = (start, finish, isRoot) => {
return ancestors$1(universe$3, start, finish, isRoot);
};
const lookupTable = container => {
return ancestor$1(container, 'table');
};
const identify = (start, finish, isRoot) => {
const getIsRoot = rootTable => {
return element => {
return isRoot !== undefined && isRoot(element) || eq$1(element, rootTable);
};
};
if (eq$1(start, finish)) {
return Optional.some({
boxes: Optional.some([start]),
start,
finish
});
} else {
return lookupTable(start).bind(startTable => {
return lookupTable(finish).bind(finishTable => {
if (eq$1(startTable, finishTable)) {
return Optional.some({
boxes: intercepts(startTable, start, finish),
start,
finish
});
} else if (contains$1(startTable, finishTable)) {
const ancestorCells = ancestors$3(finish, 'td,th', getIsRoot(startTable));
const finishCell = ancestorCells.length > 0 ? ancestorCells[ancestorCells.length - 1] : finish;
return Optional.some({
boxes: nestedIntercepts(startTable, start, startTable, finish, finishTable),
start,
finish: finishCell
});
} else if (contains$1(finishTable, startTable)) {
const ancestorCells = ancestors$3(start, 'td,th', getIsRoot(finishTable));
const startCell = ancestorCells.length > 0 ? ancestorCells[ancestorCells.length - 1] : start;
return Optional.some({
boxes: nestedIntercepts(finishTable, start, startTable, finish, finishTable),
start,
finish: startCell
});
} else {
return ancestors(start, finish).shared.bind(lca => {
return closest$1(lca, 'table', isRoot).bind(lcaTable => {
const finishAncestorCells = ancestors$3(finish, 'td,th', getIsRoot(lcaTable));
const finishCell = finishAncestorCells.length > 0 ? finishAncestorCells[finishAncestorCells.length - 1] : finish;
const startAncestorCells = ancestors$3(start, 'td,th', getIsRoot(lcaTable));
const startCell = startAncestorCells.length > 0 ? startAncestorCells[startAncestorCells.length - 1] : start;
return Optional.some({
boxes: nestedIntercepts(lcaTable, start, startTable, finish, finishTable),
start: startCell,
finish: finishCell
});
});
});
}
});
});
}
};
const retrieve$1 = (container, selector) => {
const sels = descendants(container, selector);
return sels.length > 0 ? Optional.some(sels) : Optional.none();
};
const getLast = (boxes, lastSelectedSelector) => {
return find$1(boxes, box => {
return is$2(box, lastSelectedSelector);
});
};
const getEdges = (container, firstSelectedSelector, lastSelectedSelector) => {
return descendant(container, firstSelectedSelector).bind(first => {
return descendant(container, lastSelectedSelector).bind(last => {
return sharedOne(lookupTable, [
first,
last
]).map(table => {
return {
first,
last,
table
};
});
});
});
};
const expandTo = (finish, firstSelectedSelector) => {
return ancestor$1(finish, 'table').bind(table => {
return descendant(table, firstSelectedSelector).bind(start => {
return identify(start, finish).bind(identified => {
return identified.boxes.map(boxes => {
return {
boxes,
start: identified.start,
finish: identified.finish
};
});
});
});
});
};
const shiftSelection = (boxes, deltaRow, deltaColumn, firstSelectedSelector, lastSelectedSelector) => {
return getLast(boxes, lastSelectedSelector).bind(last => {
return moveBy(last, deltaRow, deltaColumn).bind(finish => {
return expandTo(finish, firstSelectedSelector);
});
});
};
const retrieve = (container, selector) => {
return retrieve$1(container, selector);
};
const retrieveBox = (container, firstSelectedSelector, lastSelectedSelector) => {
return getEdges(container, firstSelectedSelector, lastSelectedSelector).bind(edges => {
const isRoot = ancestor => {
return eq$1(container, ancestor);
};
const sectionSelector = 'thead,tfoot,tbody,table';
const firstAncestor = ancestor$1(edges.first, sectionSelector, isRoot);
const lastAncestor = ancestor$1(edges.last, sectionSelector, isRoot);
return firstAncestor.bind(fA => {
return lastAncestor.bind(lA => {
return eq$1(fA, lA) ? getBox(edges.table, edges.first, edges.last) : Optional.none();
});
});
});
};
const selection = identity;
const unmergable = selectedCells => {
const hasSpan = (elem, type) => getOpt(elem, type).exists(span => parseInt(span, 10) > 1);
const hasRowOrColSpan = elem => hasSpan(elem, 'rowspan') || hasSpan(elem, 'colspan');
return selectedCells.length > 0 && forall(selectedCells, hasRowOrColSpan) ? Optional.some(selectedCells) : Optional.none();
};
const mergable = (table, selectedCells, ephemera) => {
if (selectedCells.length <= 1) {
return Optional.none();
} else {
return retrieveBox(table, ephemera.firstSelectedSelector, ephemera.lastSelectedSelector).map(bounds => ({
bounds,
cells: selectedCells
}));
}
};
const strSelected = 'data-mce-selected';
const strSelectedSelector = 'td[' + strSelected + '],th[' + strSelected + ']';
const strAttributeSelector = '[' + strSelected + ']';
const strFirstSelected = 'data-mce-first-selected';
const strFirstSelectedSelector = 'td[' + strFirstSelected + '],th[' + strFirstSelected + ']';
const strLastSelected = 'data-mce-last-selected';
const strLastSelectedSelector = 'td[' + strLastSelected + '],th[' + strLastSelected + ']';
const attributeSelector = strAttributeSelector;
const ephemera = {
selected: strSelected,
selectedSelector: strSelectedSelector,
firstSelected: strFirstSelected,
firstSelectedSelector: strFirstSelectedSelector,
lastSelected: strLastSelected,
lastSelectedSelector: strLastSelectedSelector
};
const forMenu = (selectedCells, table, cell) => ({
element: cell,
mergable: mergable(table, selectedCells, ephemera),
unmergable: unmergable(selectedCells),
selection: selection(selectedCells)
});
const paste = (element, clipboard, generators) => ({
element,
clipboard,
generators
});
const pasteRows = (selectedCells, _cell, clipboard, generators) => ({
selection: selection(selectedCells),
clipboard,
generators
});
const getSelectionCellFallback = element => table(element).bind(table => retrieve(table, ephemera.firstSelectedSelector)).fold(constant(element), cells => cells[0]);
const getSelectionFromSelector = selector => (initCell, isRoot) => {
const cellName = name(initCell);
const cell = cellName === 'col' || cellName === 'colgroup' ? getSelectionCellFallback(initCell) : initCell;
return closest$1(cell, selector, isRoot);
};
const getSelectionCellOrCaption = getSelectionFromSelector('th,td,caption');
const getSelectionCell = getSelectionFromSelector('th,td');
const getCellsFromSelection = editor => fromDom(editor.model.table.getSelectedCells());
const getCellsFromFakeSelection = editor => filter$2(getCellsFromSelection(editor), cell => is$2(cell, ephemera.selectedSelector));
const extractSelected = cells => {
return table(cells[0]).map(table => {
const replica = extract$1(table, attributeSelector);
removeDataStyle(replica);
return [replica];
});
};
const serializeElements = (editor, elements) => map$1(elements, elm => editor.selection.serializer.serialize(elm.dom, {})).join('');
const getTextContent = (editor, replicaElements) => {
const doc = editor.getDoc();
const dos = getRootNode(SugarElement.fromDom(editor.getBody()));
const offscreenDiv = SugarElement.fromTag('div', doc);
set$2(offscreenDiv, 'data-mce-bogus', 'all');
setAll(offscreenDiv, {
position: 'fixed',
left: '-9999999px',
top: '0',
overflow: 'hidden',
opacity: '0'
});
const root = getContentContainer(dos);
append(offscreenDiv, replicaElements);
append$1(root, offscreenDiv);
const textContent = offscreenDiv.dom.innerText;
remove$6(offscreenDiv);
return textContent;
};
const registerEvents = (editor, actions) => {
editor.on('BeforeGetContent', e => {
const multiCellContext = cells => {
e.preventDefault();
extractSelected(cells).each(replicaElements => {
const content = e.format === 'text' ? getTextContent(editor, replicaElements) : serializeElements(editor, replicaElements);
e.content = content;
});
};
if (e.selection === true) {
const cells = getCellsFromFakeSelection(editor);
if (cells.length >= 1) {
multiCellContext(cells);
}
}
});
editor.on('BeforeSetContent', e => {
if (e.selection === true && e.paste === true) {
const selectedCells = getCellsFromSelection(editor);
head(selectedCells).each(cell => {
table(cell).each(table => {
const elements = filter$2(fromHtml(e.content), content => {
return name(content) !== 'meta';
});
const isTable = isTag('table');
if (shouldMergeContentOnPaste(editor) && elements.length === 1 && isTable(elements[0])) {
e.preventDefault();
const doc = SugarElement.fromDom(editor.getDoc());
const generators = paste$1(doc);
const targets = paste(cell, elements[0], generators);
actions.pasteCells(table, targets).each(() => {
editor.focus();
});
}
});
});
}
});
};
const point = (element, offset) => ({
element,
offset
});
const scan$1 = (universe, element, direction) => {
if (universe.property().isText(element) && universe.property().getText(element).trim().length === 0 || universe.property().isComment(element)) {
return direction(element).bind(elem => {
return scan$1(universe, elem, direction).orThunk(() => {
return Optional.some(elem);
});
});
} else {
return Optional.none();
}
};
const toEnd = (universe, element) => {
if (universe.property().isText(element)) {
return universe.property().getText(element).length;
}
const children = universe.property().children(element);
return children.length;
};
const freefallRtl$2 = (universe, element) => {
const candidate = scan$1(universe, element, universe.query().prevSibling).getOr(element);
if (universe.property().isText(candidate)) {
return point(candidate, toEnd(universe, candidate));
}
const children = universe.property().children(candidate);
return children.length > 0 ? freefallRtl$2(universe, children[children.length - 1]) : point(candidate, toEnd(universe, candidate));
};
const freefallRtl$1 = freefallRtl$2;
const universe$2 = DomUniverse();
const freefallRtl = element => {
return freefallRtl$1(universe$2, element);
};
const halve = (main, other) => {
if (!hasColspan(main)) {
const width = getGenericWidth(main);
width.each(w => {
const newWidth = w.value / 2;
setGenericWidth(main, newWidth, w.unit);
setGenericWidth(other, newWidth, w.unit);
});
}
};
const zero = array => map$1(array, constant(0));
const surround = (sizes, startIndex, endIndex, results, f) => f(sizes.slice(0, startIndex)).concat(results).concat(f(sizes.slice(endIndex)));
const clampDeltaHelper = predicate => (sizes, index, delta, minCellSize) => {
if (!predicate(delta)) {
return delta;
} else {
const newSize = Math.max(minCellSize, sizes[index] - Math.abs(delta));
const diff = Math.abs(newSize - sizes[index]);
return delta >= 0 ? diff : -diff;
}
};
const clampNegativeDelta = clampDeltaHelper(delta => delta < 0);
const clampDelta = clampDeltaHelper(always);
const resizeTable = () => {
const calcFixedDeltas = (sizes, index, next, delta, minCellSize) => {
const clampedDelta = clampNegativeDelta(sizes, index, delta, minCellSize);
return surround(sizes, index, next + 1, [
clampedDelta,
0
], zero);
};
const calcRelativeDeltas = (sizes, index, delta, minCellSize) => {
const ratio = (100 + delta) / 100;
const newThis = Math.max(minCellSize, (sizes[index] + delta) / ratio);
return map$1(sizes, (size, idx) => {
const newSize = idx === index ? newThis : size / ratio;
return newSize - size;
});
};
const calcLeftEdgeDeltas = (sizes, index, next, delta, minCellSize, isRelative) => {
if (isRelative) {
return calcRelativeDeltas(sizes, index, delta, minCellSize);
} else {
return calcFixedDeltas(sizes, index, next, delta, minCellSize);
}
};
const calcMiddleDeltas = (sizes, _prev, index, next, delta, minCellSize, isRelative) => calcLeftEdgeDeltas(sizes, index, next, delta, minCellSize, isRelative);
const resizeTable = (resizer, delta) => resizer(delta);
const calcRightEdgeDeltas = (sizes, _prev, index, delta, minCellSize, isRelative) => {
if (isRelative) {
return calcRelativeDeltas(sizes, index, delta, minCellSize);
} else {
const clampedDelta = clampNegativeDelta(sizes, index, delta, minCellSize);
return zero(sizes.slice(0, index)).concat([clampedDelta]);
}
};
const calcRedestributedWidths = (sizes, totalWidth, pixelDelta, isRelative) => {
if (isRelative) {
const tableWidth = totalWidth + pixelDelta;
const ratio = tableWidth / totalWidth;
const newSizes = map$1(sizes, size => size / ratio);
return {
delta: ratio * 100 - 100,
newSizes
};
} else {
return {
delta: pixelDelta,
newSizes: sizes
};
}
};
return {
resizeTable,
clampTableDelta: clampNegativeDelta,
calcLeftEdgeDeltas,
calcMiddleDeltas,
calcRightEdgeDeltas,
calcRedestributedWidths
};
};
const preserveTable = () => {
const calcLeftEdgeDeltas = (sizes, index, next, delta, minCellSize) => {
const idx = delta >= 0 ? next : index;
const clampedDelta = clampDelta(sizes, idx, delta, minCellSize);
return surround(sizes, index, next + 1, [
clampedDelta,
-clampedDelta
], zero);
};
const calcMiddleDeltas = (sizes, _prev, index, next, delta, minCellSize) => calcLeftEdgeDeltas(sizes, index, next, delta, minCellSize);
const resizeTable = (resizer, delta, isLastColumn) => {
if (isLastColumn) {
resizer(delta);
}
};
const calcRightEdgeDeltas = (sizes, _prev, _index, delta, _minCellSize, isRelative) => {
if (isRelative) {
return zero(sizes);
} else {
const diff = delta / sizes.length;
return map$1(sizes, constant(diff));
}
};
const clampTableDelta = (sizes, index, delta, minCellSize, isLastColumn) => {
if (isLastColumn) {
if (delta >= 0) {
return delta;
} else {
const maxDelta = foldl(sizes, (a, b) => a + b - minCellSize, 0);
return Math.max(-maxDelta, delta);
}
} else {
return clampNegativeDelta(sizes, index, delta, minCellSize);
}
};
const calcRedestributedWidths = (sizes, _totalWidth, _pixelDelta, _isRelative) => ({
delta: 0,
newSizes: sizes
});
return {
resizeTable,
clampTableDelta,
calcLeftEdgeDeltas,
calcMiddleDeltas,
calcRightEdgeDeltas,
calcRedestributedWidths
};
};
const getGridSize = table => {
const warehouse = Warehouse.fromTable(table);
return warehouse.grid;
};
const isHeaderCell = isTag('th');
const isHeaderCells = cells => forall(cells, cell => isHeaderCell(cell.element));
const getRowHeaderType = (isHeaderRow, isHeaderCells) => {
if (isHeaderRow && isHeaderCells) {
return 'sectionCells';
} else if (isHeaderRow) {
return 'section';
} else {
return 'cells';
}
};
const getRowType = row => {
const isHeaderRow = row.section === 'thead';
const isHeaderCells = is(findCommonCellType(row.cells), 'th');
if (row.section === 'tfoot') {
return { type: 'footer' };
} else if (isHeaderRow || isHeaderCells) {
return {
type: 'header',
subType: getRowHeaderType(isHeaderRow, isHeaderCells)
};
} else {
return { type: 'body' };
}
};
const findCommonCellType = cells => {
const headerCells = filter$2(cells, cell => isHeaderCell(cell.element));
if (headerCells.length === 0) {
return Optional.some('td');
} else if (headerCells.length === cells.length) {
return Optional.some('th');
} else {
return Optional.none();
}
};
const findCommonRowType = rows => {
const rowTypes = map$1(rows, row => getRowType(row).type);
const hasHeader = contains$2(rowTypes, 'header');
const hasFooter = contains$2(rowTypes, 'footer');
if (!hasHeader && !hasFooter) {
return Optional.some('body');
} else {
const hasBody = contains$2(rowTypes, 'body');
if (hasHeader && !hasBody && !hasFooter) {
return Optional.some('header');
} else if (!hasHeader && !hasBody && hasFooter) {
return Optional.some('footer');
} else {
return Optional.none();
}
}
};
const findTableRowHeaderType = warehouse => findMap(warehouse.all, row => {
const rowType = getRowType(row);
return rowType.type === 'header' ? Optional.from(rowType.subType) : Optional.none();
});
const transformCell = (cell, comparator, substitution) => elementnew(substitution(cell.element, comparator), true, cell.isLocked);
const transformRow = (row, section) => row.section !== section ? rowcells(row.element, row.cells, section, row.isNew) : row;
const section = () => ({
transformRow,
transformCell: (cell, comparator, substitution) => {
const newCell = substitution(cell.element, comparator);
const fixedCell = name(newCell) !== 'td' ? mutate$1(newCell, 'td') : newCell;
return elementnew(fixedCell, cell.isNew, cell.isLocked);
}
});
const sectionCells = () => ({
transformRow,
transformCell
});
const cells = () => ({
transformRow: (row, section) => {
const newSection = section === 'thead' ? 'tbody' : section;
return transformRow(row, newSection);
},
transformCell
});
const fallback = () => ({
transformRow: identity,
transformCell
});
const getTableSectionType = (table, fallback) => {
const warehouse = Warehouse.fromTable(table);
const type = findTableRowHeaderType(warehouse).getOr(fallback);
switch (type) {
case 'section':
return section();
case 'sectionCells':
return sectionCells();
case 'cells':
return cells();
}
};
const TableSection = {
getTableSectionType,
section,
sectionCells,
cells,
fallback
};
const setIfNot = (element, property, value, ignore) => {
if (value === ignore) {
remove$7(element, property);
} else {
set$2(element, property, value);
}
};
const insert$1 = (table, selector, element) => {
last$2(children(table, selector)).fold(() => prepend(table, element), child => after$5(child, element));
};
const generateSection = (table, sectionName) => {
const section = child(table, sectionName).getOrThunk(() => {
const newSection = SugarElement.fromTag(sectionName, owner(table).dom);
if (sectionName === 'thead') {
insert$1(table, 'caption,colgroup', newSection);
} else if (sectionName === 'colgroup') {
insert$1(table, 'caption', newSection);
} else {
append$1(table, newSection);
}
return newSection;
});
empty(section);
return section;
};
const render$1 = (table, grid) => {
const newRows = [];
const newCells = [];
const syncRows = gridSection => map$1(gridSection, row => {
if (row.isNew) {
newRows.push(row.element);
}
const tr = row.element;
empty(tr);
each$2(row.cells, cell => {
if (cell.isNew) {
newCells.push(cell.element);
}
setIfNot(cell.element, 'colspan', cell.colspan, 1);
setIfNot(cell.element, 'rowspan', cell.rowspan, 1);
append$1(tr, cell.element);
});
return tr;
});
const syncColGroup = gridSection => bind$2(gridSection, colGroup => map$1(colGroup.cells, col => {
setIfNot(col.element, 'span', col.colspan, 1);
return col.element;
}));
const renderSection = (gridSection, sectionName) => {
const section = generateSection(table, sectionName);
const sync = sectionName === 'colgroup' ? syncColGroup : syncRows;
const sectionElems = sync(gridSection);
append(section, sectionElems);
};
const removeSection = sectionName => {
child(table, sectionName).each(remove$6);
};
const renderOrRemoveSection = (gridSection, sectionName) => {
if (gridSection.length > 0) {
renderSection(gridSection, sectionName);
} else {
removeSection(sectionName);
}
};
const headSection = [];
const bodySection = [];
const footSection = [];
const columnGroupsSection = [];
each$2(grid, row => {
switch (row.section) {
case 'thead':
headSection.push(row);
break;
case 'tbody':
bodySection.push(row);
break;
case 'tfoot':
footSection.push(row);
break;
case 'colgroup':
columnGroupsSection.push(row);
break;
}
});
renderOrRemoveSection(columnGroupsSection, 'colgroup');
renderOrRemoveSection(headSection, 'thead');
renderOrRemoveSection(bodySection, 'tbody');
renderOrRemoveSection(footSection, 'tfoot');
return {
newRows,
newCells
};
};
const copy = grid => map$1(grid, row => {
const tr = shallow(row.element);
each$2(row.cells, cell => {
const clonedCell = deep(cell.element);
setIfNot(clonedCell, 'colspan', cell.colspan, 1);
setIfNot(clonedCell, 'rowspan', cell.rowspan, 1);
append$1(tr, clonedCell);
});
return tr;
});
const getColumn = (grid, index) => {
return map$1(grid, row => {
return getCell(row, index);
});
};
const getRow = (grid, index) => {
return grid[index];
};
const findDiff = (xs, comp) => {
if (xs.length === 0) {
return 0;
}
const first = xs[0];
const index = findIndex(xs, x => {
return !comp(first.element, x.element);
});
return index.getOr(xs.length);
};
const subgrid = (grid, row, column, comparator) => {
const gridRow = getRow(grid, row);
const isColRow = gridRow.section === 'colgroup';
const colspan = findDiff(gridRow.cells.slice(column), comparator);
const rowspan = isColRow ? 1 : findDiff(getColumn(grid.slice(row), column), comparator);
return {
colspan,
rowspan
};
};
const toDetails = (grid, comparator) => {
const seen = map$1(grid, row => map$1(row.cells, never));
const updateSeen = (rowIndex, columnIndex, rowspan, colspan) => {
for (let row = rowIndex; row < rowIndex + rowspan; row++) {
for (let column = columnIndex; column < columnIndex + colspan; column++) {
seen[row][column] = true;
}
}
};
return map$1(grid, (row, rowIndex) => {
const details = bind$2(row.cells, (cell, columnIndex) => {
if (seen[rowIndex][columnIndex] === false) {
const result = subgrid(grid, rowIndex, columnIndex, comparator);
updateSeen(rowIndex, columnIndex, result.rowspan, result.colspan);
return [detailnew(cell.element, result.rowspan, result.colspan, cell.isNew)];
} else {
return [];
}
});
return rowdetailnew(row.element, details, row.section, row.isNew);
});
};
const toGrid = (warehouse, generators, isNew) => {
const grid = [];
each$2(warehouse.colgroups, colgroup => {
const colgroupCols = [];
for (let columnIndex = 0; columnIndex < warehouse.grid.columns; columnIndex++) {
const element = Warehouse.getColumnAt(warehouse, columnIndex).map(column => elementnew(column.element, isNew, false)).getOrThunk(() => elementnew(generators.colGap(), true, false));
colgroupCols.push(element);
}
grid.push(rowcells(colgroup.element, colgroupCols, 'colgroup', isNew));
});
for (let rowIndex = 0; rowIndex < warehouse.grid.rows; rowIndex++) {
const rowCells = [];
for (let columnIndex = 0; columnIndex < warehouse.grid.columns; columnIndex++) {
const element = Warehouse.getAt(warehouse, rowIndex, columnIndex).map(item => elementnew(item.element, isNew, item.isLocked)).getOrThunk(() => elementnew(generators.gap(), true, false));
rowCells.push(element);
}
const rowDetail = warehouse.all[rowIndex];
const row = rowcells(rowDetail.element, rowCells, rowDetail.section, isNew);
grid.push(row);
}
return grid;
};
const fromWarehouse = (warehouse, generators) => toGrid(warehouse, generators, false);
const toDetailList = grid => toDetails(grid, eq$1);
const findInWarehouse = (warehouse, element) => findMap(warehouse.all, r => find$1(r.cells, e => eq$1(element, e.element)));
const extractCells = (warehouse, target, predicate) => {
const details = map$1(target.selection, cell$1 => {
return cell(cell$1).bind(lc => findInWarehouse(warehouse, lc)).filter(predicate);
});
const cells = cat(details);
return someIf(cells.length > 0, cells);
};
const run = (operation, extract, adjustment, postAction, genWrappers) => (table, target, generators, behaviours) => {
const warehouse = Warehouse.fromTable(table);
const tableSection = Optional.from(behaviours === null || behaviours === void 0 ? void 0 : behaviours.section).getOrThunk(TableSection.fallback);
const output = extract(warehouse, target).map(info => {
const model = fromWarehouse(warehouse, generators);
const result = operation(model, info, eq$1, genWrappers(generators), tableSection);
const lockedColumns = getLockedColumnsFromGrid(result.grid);
const grid = toDetailList(result.grid);
return {
info,
grid,
cursor: result.cursor,
lockedColumns
};
});
return output.bind(out => {
const newElements = render$1(table, out.grid);
const tableSizing = Optional.from(behaviours === null || behaviours === void 0 ? void 0 : behaviours.sizing).getOrThunk(() => TableSize.getTableSize(table));
const resizing = Optional.from(behaviours === null || behaviours === void 0 ? void 0 : behaviours.resize).getOrThunk(preserveTable);
adjustment(table, out.grid, out.info, {
sizing: tableSizing,
resize: resizing,
section: tableSection
});
postAction(table);
remove$7(table, LOCKED_COL_ATTR);
if (out.lockedColumns.length > 0) {
set$2(table, LOCKED_COL_ATTR, out.lockedColumns.join(','));
}
return Optional.some({
cursor: out.cursor,
newRows: newElements.newRows,
newCells: newElements.newCells
});
});
};
const onPaste = (warehouse, target) => cell(target.element).bind(cell => findInWarehouse(warehouse, cell).map(details => {
const value = {
...details,
generators: target.generators,
clipboard: target.clipboard
};
return value;
}));
const onPasteByEditor = (warehouse, target) => extractCells(warehouse, target, always).map(cells => ({
cells,
generators: target.generators,
clipboard: target.clipboard
}));
const onMergable = (_warehouse, target) => target.mergable;
const onUnmergable = (_warehouse, target) => target.unmergable;
const onCells = (warehouse, target) => extractCells(warehouse, target, always);
const onUnlockedCells = (warehouse, target) => extractCells(warehouse, target, detail => !detail.isLocked);
const isUnlockedTableCell = (warehouse, cell) => findInWarehouse(warehouse, cell).exists(detail => !detail.isLocked);
const allUnlocked = (warehouse, cells) => forall(cells, cell => isUnlockedTableCell(warehouse, cell));
const onUnlockedMergable = (warehouse, target) => onMergable(warehouse, target).filter(mergeable => allUnlocked(warehouse, mergeable.cells));
const onUnlockedUnmergable = (warehouse, target) => onUnmergable(warehouse, target).filter(cells => allUnlocked(warehouse, cells));
const merge$2 = (grid, bounds, comparator, substitution) => {
const rows = extractGridDetails(grid).rows;
if (rows.length === 0) {
return grid;
}
for (let i = bounds.startRow; i <= bounds.finishRow; i++) {
for (let j = bounds.startCol; j <= bounds.finishCol; j++) {
const row = rows[i];
const isLocked = getCell(row, j).isLocked;
mutateCell(row, j, elementnew(substitution(), false, isLocked));
}
}
return grid;
};
const unmerge = (grid, target, comparator, substitution) => {
const rows = extractGridDetails(grid).rows;
let first = true;
for (let i = 0; i < rows.length; i++) {
for (let j = 0; j < cellLength(rows[0]); j++) {
const row = rows[i];
const currentCell = getCell(row, j);
const currentCellElm = currentCell.element;
const isToReplace = comparator(currentCellElm, target);
if (isToReplace && !first) {
mutateCell(row, j, elementnew(substitution(), true, currentCell.isLocked));
} else if (isToReplace) {
first = false;
}
}
}
return grid;
};
const uniqueCells = (row, comparator) => {
return foldl(row, (rest, cell) => {
return exists(rest, currentCell => {
return comparator(currentCell.element, cell.element);
}) ? rest : rest.concat([cell]);
}, []);
};
const splitCols = (grid, index, comparator, substitution) => {
if (index > 0 && index < grid[0].cells.length) {
each$2(grid, row => {
const prevCell = row.cells[index - 1];
let offset = 0;
const substitute = substitution();
while (row.cells.length > index + offset && comparator(prevCell.element, row.cells[index + offset].element)) {
mutateCell(row, index + offset, elementnew(substitute, true, row.cells[index + offset].isLocked));
offset++;
}
});
}
return grid;
};
const splitRows = (grid, index, comparator, substitution) => {
const rows = extractGridDetails(grid).rows;
if (index > 0 && index < rows.length) {
const rowPrevCells = rows[index - 1].cells;
const cells = uniqueCells(rowPrevCells, comparator);
each$2(cells, cell => {
let replacement = Optional.none();
for (let i = index; i < rows.length; i++) {
for (let j = 0; j < cellLength(rows[0]); j++) {
const row = rows[i];
const current = getCell(row, j);
const isToReplace = comparator(current.element, cell.element);
if (isToReplace) {
if (replacement.isNone()) {
replacement = Optional.some(substitution());
}
replacement.each(sub => {
mutateCell(row, j, elementnew(sub, true, current.isLocked));
});
}
}
}
});
}
return grid;
};
const value$1 = value => {
const applyHelper = fn => fn(value);
const constHelper = constant(value);
const outputHelper = () => output;
const output = {
tag: true,
inner: value,
fold: (_onError, onValue) => onValue(value),
isValue: always,
isError: never,
map: mapper => Result.value(mapper(value)),
mapError: outputHelper,
bind: applyHelper,
exists: applyHelper,
forall: applyHelper,
getOr: constHelper,
or: outputHelper,
getOrThunk: constHelper,
orThunk: outputHelper,
getOrDie: constHelper,
each: fn => {
fn(value);
},
toOptional: () => Optional.some(value)
};
return output;
};
const error = error => {
const outputHelper = () => output;
const output = {
tag: false,
inner: error,
fold: (onError, _onValue) => onError(error),
isValue: never,
isError: always,
map: outputHelper,
mapError: mapper => Result.error(mapper(error)),
bind: outputHelper,
exists: never,
forall: always,
getOr: identity,
or: identity,
getOrThunk: apply,
orThunk: apply,
getOrDie: die(String(error)),
each: noop,
toOptional: Optional.none
};
return output;
};
const fromOption = (optional, err) => optional.fold(() => error(err), value$1);
const Result = {
value: value$1,
error,
fromOption
};
const measure = (startAddress, gridA, gridB) => {
if (startAddress.row >= gridA.length || startAddress.column > cellLength(gridA[0])) {
return Result.error('invalid start address out of table bounds, row: ' + startAddress.row + ', column: ' + startAddress.column);
}
const rowRemainder = gridA.slice(startAddress.row);
const colRemainder = rowRemainder[0].cells.slice(startAddress.column);
const colRequired = cellLength(gridB[0]);
const rowRequired = gridB.length;
return Result.value({
rowDelta: rowRemainder.length - rowRequired,
colDelta: colRemainder.length - colRequired
});
};
const measureWidth = (gridA, gridB) => {
const colLengthA = cellLength(gridA[0]);
const colLengthB = cellLength(gridB[0]);
return {
rowDelta: 0,
colDelta: colLengthA - colLengthB
};
};
const measureHeight = (gridA, gridB) => {
const rowLengthA = gridA.length;
const rowLengthB = gridB.length;
return {
rowDelta: rowLengthA - rowLengthB,
colDelta: 0
};
};
const generateElements = (amount, row, generators, isLocked) => {
const generator = row.section === 'colgroup' ? generators.col : generators.cell;
return range$1(amount, idx => elementnew(generator(), true, isLocked(idx)));
};
const rowFill = (grid, amount, generators, lockedColumns) => {
const exampleRow = grid[grid.length - 1];
return grid.concat(range$1(amount, () => {
const generator = exampleRow.section === 'colgroup' ? generators.colgroup : generators.row;
const row = clone(exampleRow, generator, identity);
const elements = generateElements(row.cells.length, row, generators, idx => has$1(lockedColumns, idx.toString()));
return setCells(row, elements);
}));
};
const colFill = (grid, amount, generators, startIndex) => map$1(grid, row => {
const newChildren = generateElements(amount, row, generators, never);
return addCells(row, startIndex, newChildren);
});
const lockedColFill = (grid, generators, lockedColumns) => map$1(grid, row => {
return foldl(lockedColumns, (acc, colNum) => {
const newChild = generateElements(1, row, generators, always)[0];
return addCell(acc, colNum, newChild);
}, row);
});
const tailor = (gridA, delta, generators) => {
const fillCols = delta.colDelta < 0 ? colFill : identity;
const fillRows = delta.rowDelta < 0 ? rowFill : identity;
const lockedColumns = getLockedColumnsFromGrid(gridA);
const gridWidth = cellLength(gridA[0]);
const isLastColLocked = exists(lockedColumns, locked => locked === gridWidth - 1);
const modifiedCols = fillCols(gridA, Math.abs(delta.colDelta), generators, isLastColLocked ? gridWidth - 1 : gridWidth);
const newLockedColumns = getLockedColumnsFromGrid(modifiedCols);
return fillRows(modifiedCols, Math.abs(delta.rowDelta), generators, mapToObject(newLockedColumns, always));
};
const isSpanning = (grid, row, col, comparator) => {
const candidate = getCell(grid[row], col);
const matching = curry(comparator, candidate.element);
const currentRow = grid[row];
return grid.length > 1 && cellLength(currentRow) > 1 && (col > 0 && matching(getCellElement(currentRow, col - 1)) || col < currentRow.cells.length - 1 && matching(getCellElement(currentRow, col + 1)) || row > 0 && matching(getCellElement(grid[row - 1], col)) || row < grid.length - 1 && matching(getCellElement(grid[row + 1], col)));
};
const mergeTables = (startAddress, gridA, gridBRows, generator, comparator, lockedColumns) => {
const startRow = startAddress.row;
const startCol = startAddress.column;
const mergeHeight = gridBRows.length;
const mergeWidth = cellLength(gridBRows[0]);
const endRow = startRow + mergeHeight;
const endCol = startCol + mergeWidth + lockedColumns.length;
const lockedColumnObj = mapToObject(lockedColumns, always);
for (let r = startRow; r < endRow; r++) {
let skippedCol = 0;
for (let c = startCol; c < endCol; c++) {
if (lockedColumnObj[c]) {
skippedCol++;
continue;
}
if (isSpanning(gridA, r, c, comparator)) {
unmerge(gridA, getCellElement(gridA[r], c), comparator, generator.cell);
}
const gridBColIndex = c - startCol - skippedCol;
const newCell = getCell(gridBRows[r - startRow], gridBColIndex);
const newCellElm = newCell.element;
const replacement = generator.replace(newCellElm);
mutateCell(gridA[r], c, elementnew(replacement, true, newCell.isLocked));
}
}
return gridA;
};
const getValidStartAddress = (currentStartAddress, grid, lockedColumns) => {
const gridColLength = cellLength(grid[0]);
const adjustedRowAddress = extractGridDetails(grid).cols.length + currentStartAddress.row;
const possibleColAddresses = range$1(gridColLength - currentStartAddress.column, num => num + currentStartAddress.column);
const validColAddress = find$1(possibleColAddresses, num => forall(lockedColumns, col => col !== num)).getOr(gridColLength - 1);
return {
row: adjustedRowAddress,
column: validColAddress
};
};
const getLockedColumnsWithinBounds = (startAddress, rows, lockedColumns) => filter$2(lockedColumns, colNum => colNum >= startAddress.column && colNum <= cellLength(rows[0]) + startAddress.column);
const merge$1 = (startAddress, gridA, gridB, generator, comparator) => {
const lockedColumns = getLockedColumnsFromGrid(gridA);
const validStartAddress = getValidStartAddress(startAddress, gridA, lockedColumns);
const gridBRows = extractGridDetails(gridB).rows;
const lockedColumnsWithinBounds = getLockedColumnsWithinBounds(validStartAddress, gridBRows, lockedColumns);
const result = measure(validStartAddress, gridA, gridBRows);
return result.map(diff => {
const delta = {
...diff,
colDelta: diff.colDelta - lockedColumnsWithinBounds.length
};
const fittedGrid = tailor(gridA, delta, generator);
const newLockedColumns = getLockedColumnsFromGrid(fittedGrid);
const newLockedColumnsWithinBounds = getLockedColumnsWithinBounds(validStartAddress, gridBRows, newLockedColumns);
return mergeTables(validStartAddress, fittedGrid, gridBRows, generator, comparator, newLockedColumnsWithinBounds);
});
};
const insertCols = (index, gridA, gridB, generator, comparator) => {
splitCols(gridA, index, comparator, generator.cell);
const delta = measureHeight(gridB, gridA);
const fittedNewGrid = tailor(gridB, delta, generator);
const secondDelta = measureHeight(gridA, fittedNewGrid);
const fittedOldGrid = tailor(gridA, secondDelta, generator);
return map$1(fittedOldGrid, (gridRow, i) => {
return addCells(gridRow, index, fittedNewGrid[i].cells);
});
};
const insertRows = (index, gridA, gridB, generator, comparator) => {
splitRows(gridA, index, comparator, generator.cell);
const locked = getLockedColumnsFromGrid(gridA);
const diff = measureWidth(gridA, gridB);
const delta = {
...diff,
colDelta: diff.colDelta - locked.length
};
const fittedOldGrid = tailor(gridA, delta, generator);
const {
cols: oldCols,
rows: oldRows
} = extractGridDetails(fittedOldGrid);
const newLocked = getLockedColumnsFromGrid(fittedOldGrid);
const secondDiff = measureWidth(gridB, gridA);
const secondDelta = {
...secondDiff,
colDelta: secondDiff.colDelta + newLocked.length
};
const fittedGridB = lockedColFill(gridB, generator, newLocked);
const fittedNewGrid = tailor(fittedGridB, secondDelta, generator);
return [
...oldCols,
...oldRows.slice(0, index),
...fittedNewGrid,
...oldRows.slice(index, oldRows.length)
];
};
const cloneRow = (row, cloneCell, comparator, substitution) => clone(row, elem => substitution(elem, comparator), cloneCell);
const insertRowAt = (grid, index, example, comparator, substitution) => {
const {rows, cols} = extractGridDetails(grid);
const before = rows.slice(0, index);
const after = rows.slice(index);
const newRow = cloneRow(rows[example], (ex, c) => {
const withinSpan = index > 0 && index < rows.length && comparator(getCellElement(rows[index - 1], c), getCellElement(rows[index], c));
const ret = withinSpan ? getCell(rows[index], c) : elementnew(substitution(ex.element, comparator), true, ex.isLocked);
return ret;
}, comparator, substitution);
return [
...cols,
...before,
newRow,
...after
];
};
const getElementFor = (row, column, section, withinSpan, example, comparator, substitution) => {
if (section === 'colgroup' || !withinSpan) {
const cell = getCell(row, example);
return elementnew(substitution(cell.element, comparator), true, false);
} else {
return getCell(row, column);
}
};
const insertColumnAt = (grid, index, example, comparator, substitution) => map$1(grid, row => {
const withinSpan = index > 0 && index < cellLength(row) && comparator(getCellElement(row, index - 1), getCellElement(row, index));
const sub = getElementFor(row, index, row.section, withinSpan, example, comparator, substitution);
return addCell(row, index, sub);
});
const deleteColumnsAt = (grid, columns) => bind$2(grid, row => {
const existingCells = row.cells;
const cells = foldr(columns, (acc, column) => column >= 0 && column < acc.length ? acc.slice(0, column).concat(acc.slice(column + 1)) : acc, existingCells);
return cells.length > 0 ? [rowcells(row.element, cells, row.section, row.isNew)] : [];
});
const deleteRowsAt = (grid, start, finish) => {
const {rows, cols} = extractGridDetails(grid);
return [
...cols,
...rows.slice(0, start),
...rows.slice(finish + 1)
];
};
const notInStartRow = (grid, rowIndex, colIndex, comparator) => getCellElement(grid[rowIndex], colIndex) !== undefined && (rowIndex > 0 && comparator(getCellElement(grid[rowIndex - 1], colIndex), getCellElement(grid[rowIndex], colIndex)));
const notInStartColumn = (row, index, comparator) => index > 0 && comparator(getCellElement(row, index - 1), getCellElement(row, index));
const isDuplicatedCell = (grid, rowIndex, colIndex, comparator) => notInStartRow(grid, rowIndex, colIndex, comparator) || notInStartColumn(grid[rowIndex], colIndex, comparator);
const rowReplacerPredicate = (targetRow, columnHeaders) => {
const entireTableIsHeader = forall(columnHeaders, identity) && isHeaderCells(targetRow.cells);
return entireTableIsHeader ? always : (cell, _rowIndex, colIndex) => {
const type = name(cell.element);
return !(type === 'th' && columnHeaders[colIndex]);
};
};
const columnReplacePredicate = (targetColumn, rowHeaders) => {
const entireTableIsHeader = forall(rowHeaders, identity) && isHeaderCells(targetColumn);
return entireTableIsHeader ? always : (cell, rowIndex, _colIndex) => {
const type = name(cell.element);
return !(type === 'th' && rowHeaders[rowIndex]);
};
};
const determineScope = (applyScope, cell, newScope, isInHeader) => {
const hasSpan = scope => scope === 'row' ? hasRowspan(cell) : hasColspan(cell);
const getScope = scope => hasSpan(scope) ? `${ scope }group` : scope;
if (applyScope) {
return isHeaderCell(cell) ? getScope(newScope) : null;
} else if (isInHeader && isHeaderCell(cell)) {
const oppositeScope = newScope === 'row' ? 'col' : 'row';
return getScope(oppositeScope);
} else {
return null;
}
};
const rowScopeGenerator = (applyScope, columnHeaders) => (cell, rowIndex, columnIndex) => Optional.some(determineScope(applyScope, cell.element, 'col', columnHeaders[columnIndex]));
const columnScopeGenerator = (applyScope, rowHeaders) => (cell, rowIndex) => Optional.some(determineScope(applyScope, cell.element, 'row', rowHeaders[rowIndex]));
const replace = (cell, comparator, substitute) => elementnew(substitute(cell.element, comparator), true, cell.isLocked);
const replaceIn = (grid, targets, comparator, substitute, replacer, genScope, shouldReplace) => {
const isTarget = cell => {
return exists(targets, target => {
return comparator(cell.element, target.element);
});
};
return map$1(grid, (row, rowIndex) => {
return mapCells(row, (cell, colIndex) => {
if (isTarget(cell)) {
const newCell = shouldReplace(cell, rowIndex, colIndex) ? replacer(cell, comparator, substitute) : cell;
genScope(newCell, rowIndex, colIndex).each(scope => {
setOptions(newCell.element, { scope: Optional.from(scope) });
});
return newCell;
} else {
return cell;
}
});
});
};
const getColumnCells = (rows, columnIndex, comparator) => bind$2(rows, (row, i) => {
return isDuplicatedCell(rows, i, columnIndex, comparator) ? [] : [getCell(row, columnIndex)];
});
const getRowCells = (rows, rowIndex, comparator) => {
const targetRow = rows[rowIndex];
return bind$2(targetRow.cells, (item, i) => {
return isDuplicatedCell(rows, rowIndex, i, comparator) ? [] : [item];
});
};
const replaceColumns = (grid, indexes, applyScope, comparator, substitution) => {
const rows = extractGridDetails(grid).rows;
const targets = bind$2(indexes, index => getColumnCells(rows, index, comparator));
const rowHeaders = map$1(rows, row => isHeaderCells(row.cells));
const shouldReplaceCell = columnReplacePredicate(targets, rowHeaders);
const scopeGenerator = columnScopeGenerator(applyScope, rowHeaders);
return replaceIn(grid, targets, comparator, substitution, replace, scopeGenerator, shouldReplaceCell);
};
const replaceRows = (grid, indexes, section, applyScope, comparator, substitution, tableSection) => {
const {cols, rows} = extractGridDetails(grid);
const targetRow = rows[indexes[0]];
const targets = bind$2(indexes, index => getRowCells(rows, index, comparator));
const columnHeaders = map$1(targetRow.cells, (_cell, index) => isHeaderCells(getColumnCells(rows, index, comparator)));
const newRows = [...rows];
each$2(indexes, index => {
newRows[index] = tableSection.transformRow(rows[index], section);
});
const newGrid = [
...cols,
...newRows
];
const shouldReplaceCell = rowReplacerPredicate(targetRow, columnHeaders);
const scopeGenerator = rowScopeGenerator(applyScope, columnHeaders);
return replaceIn(newGrid, targets, comparator, substitution, tableSection.transformCell, scopeGenerator, shouldReplaceCell);
};
const replaceCells = (grid, details, comparator, substitution) => {
const rows = extractGridDetails(grid).rows;
const targetCells = map$1(details, detail => getCell(rows[detail.row], detail.column));
return replaceIn(grid, targetCells, comparator, substitution, replace, Optional.none, always);
};
const generate = cases => {
if (!isArray(cases)) {
throw new Error('cases must be an array');
}
if (cases.length === 0) {
throw new Error('there must be at least one case');
}
const constructors = [];
const adt = {};
each$2(cases, (acase, count) => {
const keys$1 = keys(acase);
if (keys$1.length !== 1) {
throw new Error('one and only one name per case');
}
const key = keys$1[0];
const value = acase[key];
if (adt[key] !== undefined) {
throw new Error('duplicate key detected:' + key);
} else if (key === 'cata') {
throw new Error('cannot have a case named cata (sorry)');
} else if (!isArray(value)) {
throw new Error('case arguments must be an array');
}
constructors.push(key);
adt[key] = (...args) => {
const argLength = args.length;
if (argLength !== value.length) {
throw new Error('Wrong number of arguments to case ' + key + '. Expected ' + value.length + ' (' + value + '), got ' + argLength);
}
const match = branches => {
const branchKeys = keys(branches);
if (constructors.length !== branchKeys.length) {
throw new Error('Wrong number of arguments to match. Expected: ' + constructors.join(',') + '\nActual: ' + branchKeys.join(','));
}
const allReqd = forall(constructors, reqKey => {
return contains$2(branchKeys, reqKey);
});
if (!allReqd) {
throw new Error('Not all branches were specified when using match. Specified: ' + branchKeys.join(', ') + '\nRequired: ' + constructors.join(', '));
}
return branches[key].apply(null, args);
};
return {
fold: (...foldArgs) => {
if (foldArgs.length !== cases.length) {
throw new Error('Wrong number of arguments to fold. Expected ' + cases.length + ', got ' + foldArgs.length);
}
const target = foldArgs[count];
return target.apply(null, args);
},
match,
log: label => {
console.log(label, {
constructors,
constructor: key,
params: args
});
}
};
};
});
return adt;
};
const Adt = { generate };
const adt$6 = Adt.generate([
{ none: [] },
{ only: ['index'] },
{
left: [
'index',
'next'
]
},
{
middle: [
'prev',
'index',
'next'
]
},
{
right: [
'prev',
'index'
]
}
]);
const ColumnContext = { ...adt$6 };
const neighbours = (input, index) => {
if (input.length === 0) {
return ColumnContext.none();
}
if (input.length === 1) {
return ColumnContext.only(0);
}
if (index === 0) {
return ColumnContext.left(0, 1);
}
if (index === input.length - 1) {
return ColumnContext.right(index - 1, index);
}
if (index > 0 && index < input.length - 1) {
return ColumnContext.middle(index - 1, index, index + 1);
}
return ColumnContext.none();
};
const determine = (input, column, step, tableSize, resize) => {
const result = input.slice(0);
const context = neighbours(input, column);
const onNone = constant(map$1(result, constant(0)));
const onOnly = index => tableSize.singleColumnWidth(result[index], step);
const onLeft = (index, next) => resize.calcLeftEdgeDeltas(result, index, next, step, tableSize.minCellWidth(), tableSize.isRelative);
const onMiddle = (prev, index, next) => resize.calcMiddleDeltas(result, prev, index, next, step, tableSize.minCellWidth(), tableSize.isRelative);
const onRight = (prev, index) => resize.calcRightEdgeDeltas(result, prev, index, step, tableSize.minCellWidth(), tableSize.isRelative);
return context.fold(onNone, onOnly, onLeft, onMiddle, onRight);
};
const total = (start, end, measures) => {
let r = 0;
for (let i = start; i < end; i++) {
r += measures[i] !== undefined ? measures[i] : 0;
}
return r;
};
const recalculateWidthForCells = (warehouse, widths) => {
const all = Warehouse.justCells(warehouse);
return map$1(all, cell => {
const width = total(cell.column, cell.column + cell.colspan, widths);
return {
element: cell.element,
width,
colspan: cell.colspan
};
});
};
const recalculateWidthForColumns = (warehouse, widths) => {
const groups = Warehouse.justColumns(warehouse);
return map$1(groups, (column, index) => ({
element: column.element,
width: widths[index],
colspan: column.colspan
}));
};
const matchRowHeight = (warehouse, heights) => {
return map$1(warehouse.all, (row, i) => {
return {
element: row.element,
height: heights[i]
};
});
};
const sumUp = newSize => foldr(newSize, (b, a) => b + a, 0);
const recalculate = (warehouse, widths) => {
if (Warehouse.hasColumns(warehouse)) {
return recalculateWidthForColumns(warehouse, widths);
} else {
return recalculateWidthForCells(warehouse, widths);
}
};
const recalculateAndApply = (warehouse, widths, tableSize) => {
const newSizes = recalculate(warehouse, widths);
each$2(newSizes, cell => {
tableSize.setElementWidth(cell.element, cell.width);
});
};
const adjustWidth = (table, delta, index, resizing, tableSize) => {
const warehouse = Warehouse.fromTable(table);
const step = tableSize.getCellDelta(delta);
const widths = tableSize.getWidths(warehouse, tableSize);
const isLastColumn = index === warehouse.grid.columns - 1;
const clampedStep = resizing.clampTableDelta(widths, index, step, tableSize.minCellWidth(), isLastColumn);
const deltas = determine(widths, index, clampedStep, tableSize, resizing);
const newWidths = map$1(deltas, (dx, i) => dx + widths[i]);
recalculateAndApply(warehouse, newWidths, tableSize);
resizing.resizeTable(tableSize.adjustTableWidth, clampedStep, isLastColumn);
};
const adjustHeight = (table, delta, index) => {
const warehouse = Warehouse.fromTable(table);
const heights = getPixelHeights(warehouse, table);
const newHeights = map$1(heights, (dy, i) => index === i ? Math.max(delta + dy, minHeight()) : dy);
const newRowSizes = matchRowHeight(warehouse, newHeights);
each$2(newRowSizes, row => {
setHeight(row.element, row.height);
});
each$2(Warehouse.justCells(warehouse), cell => {
removeHeight(cell.element);
});
const total = sumUp(newHeights);
setHeight(table, total);
};
const adjustAndRedistributeWidths$1 = (_table, list, details, tableSize, resizeBehaviour) => {
const warehouse = Warehouse.generate(list);
const sizes = tableSize.getWidths(warehouse, tableSize);
const tablePixelWidth = tableSize.pixelWidth();
const {newSizes, delta} = resizeBehaviour.calcRedestributedWidths(sizes, tablePixelWidth, details.pixelDelta, tableSize.isRelative);
recalculateAndApply(warehouse, newSizes, tableSize);
tableSize.adjustTableWidth(delta);
};
const adjustWidthTo = (_table, list, _info, tableSize) => {
const warehouse = Warehouse.generate(list);
const widths = tableSize.getWidths(warehouse, tableSize);
recalculateAndApply(warehouse, widths, tableSize);
};
const uniqueColumns = details => {
const uniqueCheck = (rest, detail) => {
const columnExists = exists(rest, currentDetail => currentDetail.column === detail.column);
return columnExists ? rest : rest.concat([detail]);
};
return foldl(details, uniqueCheck, []).sort((detailA, detailB) => detailA.column - detailB.column);
};
const isCol = isTag('col');
const isColgroup = isTag('colgroup');
const isRow$1 = element => name(element) === 'tr' || isColgroup(element);
const elementToData = element => {
const colspan = getAttrValue(element, 'colspan', 1);
const rowspan = getAttrValue(element, 'rowspan', 1);
return {
element,
colspan,
rowspan
};
};
const modification = (generators, toData = elementToData) => {
const nuCell = data => isCol(data.element) ? generators.col(data) : generators.cell(data);
const nuRow = data => isColgroup(data.element) ? generators.colgroup(data) : generators.row(data);
const add = element => {
if (isRow$1(element)) {
return nuRow({ element });
} else {
const cell = element;
const replacement = nuCell(toData(cell));
recent = Optional.some({
item: cell,
replacement
});
return replacement;
}
};
let recent = Optional.none();
const getOrInit = (element, comparator) => {
return recent.fold(() => {
return add(element);
}, p => {
return comparator(element, p.item) ? p.replacement : add(element);
});
};
return { getOrInit };
};
const transform$1 = tag => {
return generators => {
const list = [];
const find = (element, comparator) => {
return find$1(list, x => {
return comparator(x.item, element);
});
};
const makeNew = element => {
const attrs = tag === 'td' ? { scope: null } : {};
const cell = generators.replace(element, tag, attrs);
list.push({
item: element,
sub: cell
});
return cell;
};
const replaceOrInit = (element, comparator) => {
if (isRow$1(element) || isCol(element)) {
return element;
} else {
const cell = element;
return find(cell, comparator).fold(() => {
return makeNew(cell);
}, p => {
return comparator(element, p.item) ? p.sub : makeNew(cell);
});
}
};
return { replaceOrInit };
};
};
const getScopeAttribute = cell => getOpt(cell, 'scope').map(attribute => attribute.substr(0, 3));
const merging = generators => {
const unmerge = cell => {
const scope = getScopeAttribute(cell);
scope.each(attribute => set$2(cell, 'scope', attribute));
return () => {
const raw = generators.cell({
element: cell,
colspan: 1,
rowspan: 1
});
remove$5(raw, 'width');
remove$5(cell, 'width');
scope.each(attribute => set$2(raw, 'scope', attribute));
return raw;
};
};
const merge = cells => {
const getScopeProperty = () => {
const stringAttributes = cat(map$1(cells, getScopeAttribute));
if (stringAttributes.length === 0) {
return Optional.none();
} else {
const baseScope = stringAttributes[0];
const scopes = [
'row',
'col'
];
const isMixed = exists(stringAttributes, attribute => {
return attribute !== baseScope && contains$2(scopes, attribute);
});
return isMixed ? Optional.none() : Optional.from(baseScope);
}
};
remove$5(cells[0], 'width');
getScopeProperty().fold(() => remove$7(cells[0], 'scope'), attribute => set$2(cells[0], 'scope', attribute + 'group'));
return constant(cells[0]);
};
return {
unmerge,
merge
};
};
const Generators = {
modification,
transform: transform$1,
merging
};
const blockList = [
'body',
'p',
'div',
'article',
'aside',
'figcaption',
'figure',
'footer',
'header',
'nav',
'section',
'ol',
'ul',
'table',
'thead',
'tfoot',
'tbody',
'caption',
'tr',
'td',
'th',
'h1',
'h2',
'h3',
'h4',
'h5',
'h6',
'blockquote',
'pre',
'address'
];
const isList$1 = (universe, item) => {
const tagName = universe.property().name(item);
return contains$2([
'ol',
'ul'
], tagName);
};
const isBlock$1 = (universe, item) => {
const tagName = universe.property().name(item);
return contains$2(blockList, tagName);
};
const isEmptyTag$1 = (universe, item) => {
return contains$2([
'br',
'img',
'hr',
'input'
], universe.property().name(item));
};
const universe$1 = DomUniverse();
const isBlock = element => {
return isBlock$1(universe$1, element);
};
const isList = element => {
return isList$1(universe$1, element);
};
const isEmptyTag = element => {
return isEmptyTag$1(universe$1, element);
};
const merge = cells => {
const isBr = isTag('br');
const advancedBr = children => {
return forall(children, c => {
return isBr(c) || isText(c) && get$6(c).trim().length === 0;
});
};
const isListItem = el => {
return name(el) === 'li' || ancestor$2(el, isList).isSome();
};
const siblingIsBlock = el => {
return nextSibling(el).map(rightSibling => {
if (isBlock(rightSibling)) {
return true;
}
if (isEmptyTag(rightSibling)) {
return name(rightSibling) === 'img' ? false : true;
}
return false;
}).getOr(false);
};
const markCell = cell => {
return last$1(cell).bind(rightEdge => {
const rightSiblingIsBlock = siblingIsBlock(rightEdge);
return parent(rightEdge).map(parent => {
return rightSiblingIsBlock === true || isListItem(parent) || isBr(rightEdge) || isBlock(parent) && !eq$1(cell, parent) ? [] : [SugarElement.fromTag('br')];
});
}).getOr([]);
};
const markContent = () => {
const content = bind$2(cells, cell => {
const children = children$2(cell);
return advancedBr(children) ? [] : children.concat(markCell(cell));
});
return content.length === 0 ? [SugarElement.fromTag('br')] : content;
};
const contents = markContent();
empty(cells[0]);
append(cells[0], contents);
};
const isEditable = elem => isEditable$1(elem, true);
const prune = table => {
const cells = cells$1(table);
if (cells.length === 0) {
remove$6(table);
}
};
const outcome = (grid, cursor) => ({
grid,
cursor
});
const findEditableCursorPosition = rows => findMap(rows, row => findMap(row.cells, cell => {
const elem = cell.element;
return someIf(isEditable(elem), elem);
}));
const elementFromGrid = (grid, row, column) => {
var _a, _b;
const rows = extractGridDetails(grid).rows;
return Optional.from((_b = (_a = rows[row]) === null || _a === void 0 ? void 0 : _a.cells[column]) === null || _b === void 0 ? void 0 : _b.element).filter(isEditable).orThunk(() => findEditableCursorPosition(rows));
};
const bundle = (grid, row, column) => {
const cursorElement = elementFromGrid(grid, row, column);
return outcome(grid, cursorElement);
};
const uniqueRows = details => {
const rowCompilation = (rest, detail) => {
const rowExists = exists(rest, currentDetail => currentDetail.row === detail.row);
return rowExists ? rest : rest.concat([detail]);
};
return foldl(details, rowCompilation, []).sort((detailA, detailB) => detailA.row - detailB.row);
};
const opInsertRowsBefore = (grid, details, comparator, genWrappers) => {
const targetIndex = details[0].row;
const rows = uniqueRows(details);
const newGrid = foldr(rows, (acc, row) => {
const newG = insertRowAt(acc.grid, targetIndex, row.row + acc.delta, comparator, genWrappers.getOrInit);
return {
grid: newG,
delta: acc.delta + 1
};
}, {
grid,
delta: 0
}).grid;
return bundle(newGrid, targetIndex, details[0].column);
};
const opInsertRowsAfter = (grid, details, comparator, genWrappers) => {
const rows = uniqueRows(details);
const target = rows[rows.length - 1];
const targetIndex = target.row + target.rowspan;
const newGrid = foldr(rows, (newG, row) => {
return insertRowAt(newG, targetIndex, row.row, comparator, genWrappers.getOrInit);
}, grid);
return bundle(newGrid, targetIndex, details[0].column);
};
const opInsertColumnsBefore = (grid, extractDetail, comparator, genWrappers) => {
const details = extractDetail.details;
const columns = uniqueColumns(details);
const targetIndex = columns[0].column;
const newGrid = foldr(columns, (acc, col) => {
const newG = insertColumnAt(acc.grid, targetIndex, col.column + acc.delta, comparator, genWrappers.getOrInit);
return {
grid: newG,
delta: acc.delta + 1
};
}, {
grid,
delta: 0
}).grid;
return bundle(newGrid, details[0].row, targetIndex);
};
const opInsertColumnsAfter = (grid, extractDetail, comparator, genWrappers) => {
const details = extractDetail.details;
const target = details[details.length - 1];
const targetIndex = target.column + target.colspan;
const columns = uniqueColumns(details);
const newGrid = foldr(columns, (newG, col) => {
return insertColumnAt(newG, targetIndex, col.column, comparator, genWrappers.getOrInit);
}, grid);
return bundle(newGrid, details[0].row, targetIndex);
};
const opMakeColumnsHeader = (initialGrid, details, comparator, genWrappers) => {
const columns = uniqueColumns(details);
const columnIndexes = map$1(columns, detail => detail.column);
const newGrid = replaceColumns(initialGrid, columnIndexes, true, comparator, genWrappers.replaceOrInit);
return bundle(newGrid, details[0].row, details[0].column);
};
const opMakeCellsHeader = (initialGrid, details, comparator, genWrappers) => {
const newGrid = replaceCells(initialGrid, details, comparator, genWrappers.replaceOrInit);
return bundle(newGrid, details[0].row, details[0].column);
};
const opUnmakeColumnsHeader = (initialGrid, details, comparator, genWrappers) => {
const columns = uniqueColumns(details);
const columnIndexes = map$1(columns, detail => detail.column);
const newGrid = replaceColumns(initialGrid, columnIndexes, false, comparator, genWrappers.replaceOrInit);
return bundle(newGrid, details[0].row, details[0].column);
};
const opUnmakeCellsHeader = (initialGrid, details, comparator, genWrappers) => {
const newGrid = replaceCells(initialGrid, details, comparator, genWrappers.replaceOrInit);
return bundle(newGrid, details[0].row, details[0].column);
};
const makeRowsSection = (section, applyScope) => (initialGrid, details, comparator, genWrappers, tableSection) => {
const rows = uniqueRows(details);
const rowIndexes = map$1(rows, detail => detail.row);
const newGrid = replaceRows(initialGrid, rowIndexes, section, applyScope, comparator, genWrappers.replaceOrInit, tableSection);
return bundle(newGrid, details[0].row, details[0].column);
};
const opMakeRowsHeader = makeRowsSection('thead', true);
const opMakeRowsBody = makeRowsSection('tbody', false);
const opMakeRowsFooter = makeRowsSection('tfoot', false);
const opEraseColumns = (grid, extractDetail, _comparator, _genWrappers) => {
const columns = uniqueColumns(extractDetail.details);
const newGrid = deleteColumnsAt(grid, map$1(columns, column => column.column));
const maxColIndex = newGrid.length > 0 ? newGrid[0].cells.length - 1 : 0;
return bundle(newGrid, columns[0].row, Math.min(columns[0].column, maxColIndex));
};
const opEraseRows = (grid, details, _comparator, _genWrappers) => {
const rows = uniqueRows(details);
const newGrid = deleteRowsAt(grid, rows[0].row, rows[rows.length - 1].row);
const maxRowIndex = Math.max(extractGridDetails(newGrid).rows.length - 1, 0);
return bundle(newGrid, Math.min(details[0].row, maxRowIndex), details[0].column);
};
const opMergeCells = (grid, mergable, comparator, genWrappers) => {
const cells = mergable.cells;
merge(cells);
const newGrid = merge$2(grid, mergable.bounds, comparator, genWrappers.merge(cells));
return outcome(newGrid, Optional.from(cells[0]));
};
const opUnmergeCells = (grid, unmergable, comparator, genWrappers) => {
const unmerge$1 = (b, cell) => unmerge(b, cell, comparator, genWrappers.unmerge(cell));
const newGrid = foldr(unmergable, unmerge$1, grid);
return outcome(newGrid, Optional.from(unmergable[0]));
};
const opPasteCells = (grid, pasteDetails, comparator, _genWrappers) => {
const gridify = (table, generators) => {
const wh = Warehouse.fromTable(table);
return toGrid(wh, generators, true);
};
const gridB = gridify(pasteDetails.clipboard, pasteDetails.generators);
const startAddress = address(pasteDetails.row, pasteDetails.column);
const mergedGrid = merge$1(startAddress, grid, gridB, pasteDetails.generators, comparator);
return mergedGrid.fold(() => outcome(grid, Optional.some(pasteDetails.element)), newGrid => {
return bundle(newGrid, pasteDetails.row, pasteDetails.column);
});
};
const gridifyRows = (rows, generators, context) => {
const pasteDetails = fromPastedRows(rows, context.section);
const wh = Warehouse.generate(pasteDetails);
return toGrid(wh, generators, true);
};
const opPasteColsBefore = (grid, pasteDetails, comparator, _genWrappers) => {
const rows = extractGridDetails(grid).rows;
const index = pasteDetails.cells[0].column;
const context = rows[pasteDetails.cells[0].row];
const gridB = gridifyRows(pasteDetails.clipboard, pasteDetails.generators, context);
const mergedGrid = insertCols(index, grid, gridB, pasteDetails.generators, comparator);
return bundle(mergedGrid, pasteDetails.cells[0].row, pasteDetails.cells[0].column);
};
const opPasteColsAfter = (grid, pasteDetails, comparator, _genWrappers) => {
const rows = extractGridDetails(grid).rows;
const index = pasteDetails.cells[pasteDetails.cells.length - 1].column + pasteDetails.cells[pasteDetails.cells.length - 1].colspan;
const context = rows[pasteDetails.cells[0].row];
const gridB = gridifyRows(pasteDetails.clipboard, pasteDetails.generators, context);
const mergedGrid = insertCols(index, grid, gridB, pasteDetails.generators, comparator);
return bundle(mergedGrid, pasteDetails.cells[0].row, index);
};
const opPasteRowsBefore = (grid, pasteDetails, comparator, _genWrappers) => {
const rows = extractGridDetails(grid).rows;
const index = pasteDetails.cells[0].row;
const context = rows[index];
const gridB = gridifyRows(pasteDetails.clipboard, pasteDetails.generators, context);
const mergedGrid = insertRows(index, grid, gridB, pasteDetails.generators, comparator);
return bundle(mergedGrid, pasteDetails.cells[0].row, pasteDetails.cells[0].column);
};
const opPasteRowsAfter = (grid, pasteDetails, comparator, _genWrappers) => {
const rows = extractGridDetails(grid).rows;
const index = pasteDetails.cells[pasteDetails.cells.length - 1].row + pasteDetails.cells[pasteDetails.cells.length - 1].rowspan;
const context = rows[pasteDetails.cells[0].row];
const gridB = gridifyRows(pasteDetails.clipboard, pasteDetails.generators, context);
const mergedGrid = insertRows(index, grid, gridB, pasteDetails.generators, comparator);
return bundle(mergedGrid, index, pasteDetails.cells[0].column);
};
const opGetColumnsType = (table, target) => {
const house = Warehouse.fromTable(table);
const details = onCells(house, target);
return details.bind(selectedCells => {
const lastSelectedCell = selectedCells[selectedCells.length - 1];
const minColRange = selectedCells[0].column;
const maxColRange = lastSelectedCell.column + lastSelectedCell.colspan;
const selectedColumnCells = flatten(map$1(house.all, row => filter$2(row.cells, cell => cell.column >= minColRange && cell.column < maxColRange)));
return findCommonCellType(selectedColumnCells);
}).getOr('');
};
const opGetCellsType = (table, target) => {
const house = Warehouse.fromTable(table);
const details = onCells(house, target);
return details.bind(findCommonCellType).getOr('');
};
const opGetRowsType = (table, target) => {
const house = Warehouse.fromTable(table);
const details = onCells(house, target);
return details.bind(selectedCells => {
const lastSelectedCell = selectedCells[selectedCells.length - 1];
const minRowRange = selectedCells[0].row;
const maxRowRange = lastSelectedCell.row + lastSelectedCell.rowspan;
const selectedRows = house.all.slice(minRowRange, maxRowRange);
return findCommonRowType(selectedRows);
}).getOr('');
};
const resize = (table, list, details, behaviours) => adjustWidthTo(table, list, details, behaviours.sizing);
const adjustAndRedistributeWidths = (table, list, details, behaviours) => adjustAndRedistributeWidths$1(table, list, details, behaviours.sizing, behaviours.resize);
const firstColumnIsLocked = (_warehouse, details) => exists(details, detail => detail.column === 0 && detail.isLocked);
const lastColumnIsLocked = (warehouse, details) => exists(details, detail => detail.column + detail.colspan >= warehouse.grid.columns && detail.isLocked);
const getColumnsWidth = (warehouse, details) => {
const columns$1 = columns(warehouse);
const uniqueCols = uniqueColumns(details);
return foldl(uniqueCols, (acc, detail) => {
const column = columns$1[detail.column];
const colWidth = column.map(getOuter$2).getOr(0);
return acc + colWidth;
}, 0);
};
const insertColumnsExtractor = before => (warehouse, target) => onCells(warehouse, target).filter(details => {
const checkLocked = before ? firstColumnIsLocked : lastColumnIsLocked;
return !checkLocked(warehouse, details);
}).map(details => ({
details,
pixelDelta: getColumnsWidth(warehouse, details)
}));
const eraseColumnsExtractor = (warehouse, target) => onUnlockedCells(warehouse, target).map(details => ({
details,
pixelDelta: -getColumnsWidth(warehouse, details)
}));
const pasteColumnsExtractor = before => (warehouse, target) => onPasteByEditor(warehouse, target).filter(details => {
const checkLocked = before ? firstColumnIsLocked : lastColumnIsLocked;
return !checkLocked(warehouse, details.cells);
});
const headerCellGenerator = Generators.transform('th');
const bodyCellGenerator = Generators.transform('td');
const insertRowsBefore = run(opInsertRowsBefore, onCells, noop, noop, Generators.modification);
const insertRowsAfter = run(opInsertRowsAfter, onCells, noop, noop, Generators.modification);
const insertColumnsBefore = run(opInsertColumnsBefore, insertColumnsExtractor(true), adjustAndRedistributeWidths, noop, Generators.modification);
const insertColumnsAfter = run(opInsertColumnsAfter, insertColumnsExtractor(false), adjustAndRedistributeWidths, noop, Generators.modification);
const eraseColumns = run(opEraseColumns, eraseColumnsExtractor, adjustAndRedistributeWidths, prune, Generators.modification);
const eraseRows = run(opEraseRows, onCells, noop, prune, Generators.modification);
const makeColumnsHeader = run(opMakeColumnsHeader, onUnlockedCells, noop, noop, headerCellGenerator);
const unmakeColumnsHeader = run(opUnmakeColumnsHeader, onUnlockedCells, noop, noop, bodyCellGenerator);
const makeRowsHeader = run(opMakeRowsHeader, onUnlockedCells, noop, noop, headerCellGenerator);
const makeRowsBody = run(opMakeRowsBody, onUnlockedCells, noop, noop, bodyCellGenerator);
const makeRowsFooter = run(opMakeRowsFooter, onUnlockedCells, noop, noop, bodyCellGenerator);
const makeCellsHeader = run(opMakeCellsHeader, onUnlockedCells, noop, noop, headerCellGenerator);
const unmakeCellsHeader = run(opUnmakeCellsHeader, onUnlockedCells, noop, noop, bodyCellGenerator);
const mergeCells = run(opMergeCells, onUnlockedMergable, resize, noop, Generators.merging);
const unmergeCells = run(opUnmergeCells, onUnlockedUnmergable, resize, noop, Generators.merging);
const pasteCells = run(opPasteCells, onPaste, resize, noop, Generators.modification);
const pasteColsBefore = run(opPasteColsBefore, pasteColumnsExtractor(true), noop, noop, Generators.modification);
const pasteColsAfter = run(opPasteColsAfter, pasteColumnsExtractor(false), noop, noop, Generators.modification);
const pasteRowsBefore = run(opPasteRowsBefore, onPasteByEditor, noop, noop, Generators.modification);
const pasteRowsAfter = run(opPasteRowsAfter, onPasteByEditor, noop, noop, Generators.modification);
const getColumnsType = opGetColumnsType;
const getCellsType = opGetCellsType;
const getRowsType = opGetRowsType;
const fireNewRow = (editor, row) => editor.dispatch('NewRow', { node: row });
const fireNewCell = (editor, cell) => editor.dispatch('NewCell', { node: cell });
const fireTableModified = (editor, table, data) => {
editor.dispatch('TableModified', {
...data,
table
});
};
const fireTableSelectionChange = (editor, cells, start, finish, otherCells) => {
editor.dispatch('TableSelectionChange', {
cells,
start,
finish,
otherCells
});
};
const fireTableSelectionClear = editor => {
editor.dispatch('TableSelectionClear');
};
const fireObjectResizeStart = (editor, target, width, height, origin) => {
editor.dispatch('ObjectResizeStart', {
target,
width,
height,
origin
});
};
const fireObjectResized = (editor, target, width, height, origin) => {
editor.dispatch('ObjectResized', {
target,
width,
height,
origin
});
};
const styleModified = {
structure: false,
style: true
};
const structureModified = {
structure: true,
style: false
};
const styleAndStructureModified = {
structure: true,
style: true
};
const get$5 = (editor, table) => {
if (isTablePercentagesForced(editor)) {
return TableSize.percentageSize(table);
} else if (isTablePixelsForced(editor)) {
return TableSize.pixelSize(table);
} else {
return TableSize.getTableSize(table);
}
};
const TableActions = (editor, resizeHandler, cellSelectionHandler) => {
const isTableBody = editor => name(getBody(editor)) === 'table';
const lastRowGuard = table => !isTableBody(editor) || getGridSize(table).rows > 1;
const lastColumnGuard = table => !isTableBody(editor) || getGridSize(table).columns > 1;
const cloneFormats = getTableCloneElements(editor);
const colMutationOp = isResizeTableColumnResizing(editor) ? noop : halve;
const getTableSectionType = table => {
switch (getTableHeaderType(editor)) {
case 'section':
return TableSection.section();
case 'sectionCells':
return TableSection.sectionCells();
case 'cells':
return TableSection.cells();
default:
return TableSection.getTableSectionType(table, 'section');
}
};
const setSelectionFromAction = (table, result) => result.cursor.fold(() => {
const cells = cells$1(table);
return head(cells).filter(inBody).map(firstCell => {
cellSelectionHandler.clearSelectedCells(table.dom);
const rng = editor.dom.createRng();
rng.selectNode(firstCell.dom);
editor.selection.setRng(rng);
set$2(firstCell, 'data-mce-selected', '1');
return rng;
});
}, cell => {
const des = freefallRtl(cell);
const rng = editor.dom.createRng();
rng.setStart(des.element.dom, des.offset);
rng.setEnd(des.element.dom, des.offset);
editor.selection.setRng(rng);
cellSelectionHandler.clearSelectedCells(table.dom);
return Optional.some(rng);
});
const execute = (operation, guard, mutate, effect) => (table, target, noEvents = false) => {
removeDataStyle(table);
const doc = SugarElement.fromDom(editor.getDoc());
const generators = cellOperations(mutate, doc, cloneFormats);
const behaviours = {
sizing: get$5(editor, table),
resize: isResizeTableColumnResizing(editor) ? resizeTable() : preserveTable(),
section: getTableSectionType(table)
};
return guard(table) ? operation(table, target, generators, behaviours).bind(result => {
resizeHandler.refresh(table.dom);
each$2(result.newRows, row => {
fireNewRow(editor, row.dom);
});
each$2(result.newCells, cell => {
fireNewCell(editor, cell.dom);
});
const range = setSelectionFromAction(table, result);
if (inBody(table)) {
removeDataStyle(table);
if (!noEvents) {
fireTableModified(editor, table.dom, effect);
}
}
return range.map(rng => ({
rng,
effect
}));
}) : Optional.none();
};
const deleteRow = execute(eraseRows, lastRowGuard, noop, structureModified);
const deleteColumn = execute(eraseColumns, lastColumnGuard, noop, structureModified);
const insertRowsBefore$1 = execute(insertRowsBefore, always, noop, structureModified);
const insertRowsAfter$1 = execute(insertRowsAfter, always, noop, structureModified);
const insertColumnsBefore$1 = execute(insertColumnsBefore, always, colMutationOp, structureModified);
const insertColumnsAfter$1 = execute(insertColumnsAfter, always, colMutationOp, structureModified);
const mergeCells$1 = execute(mergeCells, always, noop, structureModified);
const unmergeCells$1 = execute(unmergeCells, always, noop, structureModified);
const pasteColsBefore$1 = execute(pasteColsBefore, always, noop, structureModified);
const pasteColsAfter$1 = execute(pasteColsAfter, always, noop, structureModified);
const pasteRowsBefore$1 = execute(pasteRowsBefore, always, noop, structureModified);
const pasteRowsAfter$1 = execute(pasteRowsAfter, always, noop, structureModified);
const pasteCells$1 = execute(pasteCells, always, noop, styleAndStructureModified);
const makeCellsHeader$1 = execute(makeCellsHeader, always, noop, structureModified);
const unmakeCellsHeader$1 = execute(unmakeCellsHeader, always, noop, structureModified);
const makeColumnsHeader$1 = execute(makeColumnsHeader, always, noop, structureModified);
const unmakeColumnsHeader$1 = execute(unmakeColumnsHeader, always, noop, structureModified);
const makeRowsHeader$1 = execute(makeRowsHeader, always, noop, structureModified);
const makeRowsBody$1 = execute(makeRowsBody, always, noop, structureModified);
const makeRowsFooter$1 = execute(makeRowsFooter, always, noop, structureModified);
const getTableCellType = getCellsType;
const getTableColType = getColumnsType;
const getTableRowType = getRowsType;
return {
deleteRow,
deleteColumn,
insertRowsBefore: insertRowsBefore$1,
insertRowsAfter: insertRowsAfter$1,
insertColumnsBefore: insertColumnsBefore$1,
insertColumnsAfter: insertColumnsAfter$1,
mergeCells: mergeCells$1,
unmergeCells: unmergeCells$1,
pasteColsBefore: pasteColsBefore$1,
pasteColsAfter: pasteColsAfter$1,
pasteRowsBefore: pasteRowsBefore$1,
pasteRowsAfter: pasteRowsAfter$1,
pasteCells: pasteCells$1,
makeCellsHeader: makeCellsHeader$1,
unmakeCellsHeader: unmakeCellsHeader$1,
makeColumnsHeader: makeColumnsHeader$1,
unmakeColumnsHeader: unmakeColumnsHeader$1,
makeRowsHeader: makeRowsHeader$1,
makeRowsBody: makeRowsBody$1,
makeRowsFooter: makeRowsFooter$1,
getTableRowType,
getTableCellType,
getTableColType
};
};
const constrainSpan = (element, property, value) => {
const currentColspan = getAttrValue(element, property, 1);
if (value === 1 || currentColspan <= 1) {
remove$7(element, property);
} else {
set$2(element, property, Math.min(value, currentColspan));
}
};
const isColInRange = (minColRange, maxColRange) => cell => {
const endCol = cell.column + cell.colspan - 1;
const startCol = cell.column;
return endCol >= minColRange && startCol < maxColRange;
};
const generateColGroup = (house, minColRange, maxColRange) => {
if (Warehouse.hasColumns(house)) {
const colsToCopy = filter$2(Warehouse.justColumns(house), isColInRange(minColRange, maxColRange));
const copiedCols = map$1(colsToCopy, c => {
const clonedCol = deep(c.element);
constrainSpan(clonedCol, 'span', maxColRange - minColRange);
return clonedCol;
});
const fakeColgroup = SugarElement.fromTag('colgroup');
append(fakeColgroup, copiedCols);
return [fakeColgroup];
} else {
return [];
}
};
const generateRows = (house, minColRange, maxColRange) => map$1(house.all, row => {
const cellsToCopy = filter$2(row.cells, isColInRange(minColRange, maxColRange));
const copiedCells = map$1(cellsToCopy, cell => {
const clonedCell = deep(cell.element);
constrainSpan(clonedCell, 'colspan', maxColRange - minColRange);
return clonedCell;
});
const fakeTR = SugarElement.fromTag('tr');
append(fakeTR, copiedCells);
return fakeTR;
});
const copyCols = (table, target) => {
const house = Warehouse.fromTable(table);
const details = onUnlockedCells(house, target);
return details.map(selectedCells => {
const lastSelectedCell = selectedCells[selectedCells.length - 1];
const minColRange = selectedCells[0].column;
const maxColRange = lastSelectedCell.column + lastSelectedCell.colspan;
const fakeColGroups = generateColGroup(house, minColRange, maxColRange);
const fakeRows = generateRows(house, minColRange, maxColRange);
return [
...fakeColGroups,
...fakeRows
];
});
};
const copyRows = (table, target, generators) => {
const warehouse = Warehouse.fromTable(table);
const details = onCells(warehouse, target);
return details.bind(selectedCells => {
const grid = toGrid(warehouse, generators, false);
const rows = extractGridDetails(grid).rows;
const slicedGrid = rows.slice(selectedCells[0].row, selectedCells[selectedCells.length - 1].row + selectedCells[selectedCells.length - 1].rowspan);
const filteredGrid = bind$2(slicedGrid, row => {
const newCells = filter$2(row.cells, cell => !cell.isLocked);
return newCells.length > 0 ? [{
...row,
cells: newCells
}] : [];
});
const slicedDetails = toDetailList(filteredGrid);
return someIf(slicedDetails.length > 0, slicedDetails);
}).map(slicedDetails => copy(slicedDetails));
};
const adt$5 = Adt.generate([
{ invalid: ['raw'] },
{ pixels: ['value'] },
{ percent: ['value'] }
]);
const validateFor = (suffix, type, value) => {
const rawAmount = value.substring(0, value.length - suffix.length);
const amount = parseFloat(rawAmount);
return rawAmount === amount.toString() ? type(amount) : adt$5.invalid(value);
};
const from = value => {
if (endsWith(value, '%')) {
return validateFor('%', adt$5.percent, value);
}
if (endsWith(value, 'px')) {
return validateFor('px', adt$5.pixels, value);
}
return adt$5.invalid(value);
};
const Size = {
...adt$5,
from
};
const redistributeToPercent = (widths, totalWidth) => {
return map$1(widths, w => {
const colType = Size.from(w);
return colType.fold(() => {
return w;
}, px => {
const ratio = px / totalWidth * 100;
return ratio + '%';
}, pc => {
return pc + '%';
});
});
};
const redistributeToPx = (widths, totalWidth, newTotalWidth) => {
const scale = newTotalWidth / totalWidth;
return map$1(widths, w => {
const colType = Size.from(w);
return colType.fold(() => {
return w;
}, px => {
return px * scale + 'px';
}, pc => {
return pc / 100 * newTotalWidth + 'px';
});
});
};
const redistributeEmpty = (newWidthType, columns) => {
const f = newWidthType.fold(() => constant(''), pixels => {
const num = pixels / columns;
return constant(num + 'px');
}, () => {
const num = 100 / columns;
return constant(num + '%');
});
return range$1(columns, f);
};
const redistributeValues = (newWidthType, widths, totalWidth) => {
return newWidthType.fold(() => {
return widths;
}, px => {
return redistributeToPx(widths, totalWidth, px);
}, _pc => {
return redistributeToPercent(widths, totalWidth);
});
};
const redistribute$1 = (widths, totalWidth, newWidth) => {
const newType = Size.from(newWidth);
const floats = forall(widths, s => {
return s === '0px';
}) ? redistributeEmpty(newType, widths.length) : redistributeValues(newType, widths, totalWidth);
return normalize(floats);
};
const sum = (values, fallback) => {
if (values.length === 0) {
return fallback;
}
return foldr(values, (rest, v) => {
return Size.from(v).fold(constant(0), identity, identity) + rest;
}, 0);
};
const roundDown = (num, unit) => {
const floored = Math.floor(num);
return {
value: floored + unit,
remainder: num - floored
};
};
const add$3 = (value, amount) => {
return Size.from(value).fold(constant(value), px => {
return px + amount + 'px';
}, pc => {
return pc + amount + '%';
});
};
const normalize = values => {
if (values.length === 0) {
return values;
}
const scan = foldr(values, (rest, value) => {
const info = Size.from(value).fold(() => ({
value,
remainder: 0
}), num => roundDown(num, 'px'), num => ({
value: num + '%',
remainder: 0
}));
return {
output: [info.value].concat(rest.output),
remainder: rest.remainder + info.remainder
};
}, {
output: [],
remainder: 0
});
const r = scan.output;
return r.slice(0, r.length - 1).concat([add$3(r[r.length - 1], Math.round(scan.remainder))]);
};
const validate = Size.from;
const redistributeToW = (newWidths, cells, unit) => {
each$2(cells, cell => {
const widths = newWidths.slice(cell.column, cell.colspan + cell.column);
const w = sum(widths, minWidth());
set$1(cell.element, 'width', w + unit);
});
};
const redistributeToColumns = (newWidths, columns, unit) => {
each$2(columns, (column, index) => {
const width = sum([newWidths[index]], minWidth());
set$1(column.element, 'width', width + unit);
});
};
const redistributeToH = (newHeights, rows, cells) => {
each$2(cells, cell => {
remove$5(cell.element, 'height');
});
each$2(rows, (row, i) => {
set$1(row.element, 'height', newHeights[i]);
});
};
const getUnit = newSize => {
return validate(newSize).fold(constant('px'), constant('px'), constant('%'));
};
const redistribute = (table, optWidth, optHeight) => {
const warehouse = Warehouse.fromTable(table);
const rows = warehouse.all;
const cells = Warehouse.justCells(warehouse);
const columns = Warehouse.justColumns(warehouse);
optWidth.each(newWidth => {
const widthUnit = getUnit(newWidth);
const totalWidth = get$9(table);
const oldWidths = getRawWidths(warehouse, table);
const nuWidths = redistribute$1(oldWidths, totalWidth, newWidth);
if (Warehouse.hasColumns(warehouse)) {
redistributeToColumns(nuWidths, columns, widthUnit);
} else {
redistributeToW(nuWidths, cells, widthUnit);
}
set$1(table, 'width', newWidth);
});
optHeight.each(newHeight => {
const totalHeight = get$8(table);
const oldHeights = getRawHeights(warehouse, table);
const nuHeights = redistribute$1(oldHeights, totalHeight, newHeight);
redistributeToH(nuHeights, rows, cells);
set$1(table, 'height', newHeight);
});
};
const isPercentSizing = isPercentSizing$1;
const isPixelSizing = isPixelSizing$1;
const isNoneSizing = isNoneSizing$1;
const cleanupLegacyAttributes = element => {
remove$7(element, 'width');
remove$7(element, 'height');
};
const convertToPercentSizeWidth = table => {
const newWidth = getPercentTableWidth(table);
redistribute(table, Optional.some(newWidth), Optional.none());
cleanupLegacyAttributes(table);
};
const convertToPixelSizeWidth = table => {
const newWidth = getPixelTableWidth(table);
redistribute(table, Optional.some(newWidth), Optional.none());
cleanupLegacyAttributes(table);
};
const convertToPixelSizeHeight = table => {
const newHeight = getPixelTableHeight(table);
redistribute(table, Optional.none(), Optional.some(newHeight));
cleanupLegacyAttributes(table);
};
const convertToNoneSizeWidth = table => {
remove$5(table, 'width');
const columns = columns$1(table);
const rowElements = columns.length > 0 ? columns : cells$1(table);
each$2(rowElements, cell => {
remove$5(cell, 'width');
cleanupLegacyAttributes(cell);
});
cleanupLegacyAttributes(table);
};
const DefaultRenderOptions = {
styles: {
'border-collapse': 'collapse',
'width': '100%'
},
attributes: { border: '1' },
colGroups: false
};
const tableHeaderCell = () => SugarElement.fromTag('th');
const tableCell = () => SugarElement.fromTag('td');
const tableColumn = () => SugarElement.fromTag('col');
const createRow = (columns, rowHeaders, columnHeaders, rowIndex) => {
const tr = SugarElement.fromTag('tr');
for (let j = 0; j < columns; j++) {
const td = rowIndex < rowHeaders || j < columnHeaders ? tableHeaderCell() : tableCell();
if (j < columnHeaders) {
set$2(td, 'scope', 'row');
}
if (rowIndex < rowHeaders) {
set$2(td, 'scope', 'col');
}
append$1(td, SugarElement.fromTag('br'));
append$1(tr, td);
}
return tr;
};
const createGroupRow = columns => {
const columnGroup = SugarElement.fromTag('colgroup');
range$1(columns, () => append$1(columnGroup, tableColumn()));
return columnGroup;
};
const createRows = (rows, columns, rowHeaders, columnHeaders) => range$1(rows, r => createRow(columns, rowHeaders, columnHeaders, r));
const render = (rows, columns, rowHeaders, columnHeaders, headerType, renderOpts = DefaultRenderOptions) => {
const table = SugarElement.fromTag('table');
const rowHeadersGoInThead = headerType !== 'cells';
setAll(table, renderOpts.styles);
setAll$1(table, renderOpts.attributes);
if (renderOpts.colGroups) {
append$1(table, createGroupRow(columns));
}
const actualRowHeaders = Math.min(rows, rowHeaders);
if (rowHeadersGoInThead && rowHeaders > 0) {
const thead = SugarElement.fromTag('thead');
append$1(table, thead);
const theadRowHeaders = headerType === 'sectionCells' ? actualRowHeaders : 0;
const theadRows = createRows(rowHeaders, columns, theadRowHeaders, columnHeaders);
append(thead, theadRows);
}
const tbody = SugarElement.fromTag('tbody');
append$1(table, tbody);
const numRows = rowHeadersGoInThead ? rows - actualRowHeaders : rows;
const numRowHeaders = rowHeadersGoInThead ? 0 : rowHeaders;
const tbodyRows = createRows(numRows, columns, numRowHeaders, columnHeaders);
append(tbody, tbodyRows);
return table;
};
const get$4 = element => element.dom.innerHTML;
const getOuter = element => {
const container = SugarElement.fromTag('div');
const clone = SugarElement.fromDom(element.dom.cloneNode(true));
append$1(container, clone);
return get$4(container);
};
const placeCaretInCell = (editor, cell) => {
editor.selection.select(cell.dom, true);
editor.selection.collapse(true);
};
const selectFirstCellInTable = (editor, tableElm) => {
descendant(tableElm, 'td,th').each(curry(placeCaretInCell, editor));
};
const fireEvents = (editor, table) => {
each$2(descendants(table, 'tr'), row => {
fireNewRow(editor, row.dom);
each$2(descendants(row, 'th,td'), cell => {
fireNewCell(editor, cell.dom);
});
});
};
const isPercentage = width => isString(width) && width.indexOf('%') !== -1;
const insert = (editor, columns, rows, colHeaders, rowHeaders) => {
const defaultStyles = getTableDefaultStyles(editor);
const options = {
styles: defaultStyles,
attributes: getTableDefaultAttributes(editor),
colGroups: tableUseColumnGroup(editor)
};
editor.undoManager.ignore(() => {
const table = render(rows, columns, rowHeaders, colHeaders, getTableHeaderType(editor), options);
set$2(table, 'data-mce-id', '__mce');
const html = getOuter(table);
editor.insertContent(html);
editor.addVisual();
});
return descendant(getBody(editor), 'table[data-mce-id="__mce"]').map(table => {
if (isTablePixelsForced(editor)) {
convertToPixelSizeWidth(table);
} else if (isTableResponsiveForced(editor)) {
convertToNoneSizeWidth(table);
} else if (isTablePercentagesForced(editor) || isPercentage(defaultStyles.width)) {
convertToPercentSizeWidth(table);
}
removeDataStyle(table);
remove$7(table, 'data-mce-id');
fireEvents(editor, table);
selectFirstCellInTable(editor, table);
return table.dom;
}).getOrNull();
};
const insertTable = (editor, rows, columns, options = {}) => {
const checkInput = val => isNumber(val) && val > 0;
if (checkInput(rows) && checkInput(columns)) {
const headerRows = options.headerRows || 0;
const headerColumns = options.headerColumns || 0;
return insert(editor, columns, rows, headerColumns, headerRows);
} else {
console.error('Invalid values for mceInsertTable - rows and columns values are required to insert a table.');
return null;
}
};
var global = tinymce.util.Tools.resolve('tinymce.FakeClipboard');
const tableTypeBase = 'x-tinymce/dom-table-';
const tableTypeRow = tableTypeBase + 'rows';
const tableTypeColumn = tableTypeBase + 'columns';
const setData = items => {
const fakeClipboardItem = global.FakeClipboardItem(items);
global.write([fakeClipboardItem]);
};
const getData = type => {
var _a;
const items = (_a = global.read()) !== null && _a !== void 0 ? _a : [];
return findMap(items, item => Optional.from(item.getType(type)));
};
const clearData = type => {
if (getData(type).isSome()) {
global.clear();
}
};
const setRows = rowsOpt => {
rowsOpt.fold(clearRows, rows => setData({ [tableTypeRow]: rows }));
};
const getRows = () => getData(tableTypeRow);
const clearRows = () => clearData(tableTypeRow);
const setColumns = columnsOpt => {
columnsOpt.fold(clearColumns, columns => setData({ [tableTypeColumn]: columns }));
};
const getColumns = () => getData(tableTypeColumn);
const clearColumns = () => clearData(tableTypeColumn);
const getSelectionStartCellOrCaption = editor => getSelectionCellOrCaption(getSelectionStart(editor), getIsRoot(editor)).filter(isInEditableContext$1);
const getSelectionStartCell = editor => getSelectionCell(getSelectionStart(editor), getIsRoot(editor)).filter(isInEditableContext$1);
const registerCommands = (editor, actions) => {
const isRoot = getIsRoot(editor);
const eraseTable = () => getSelectionStartCellOrCaption(editor).each(cellOrCaption => {
table(cellOrCaption, isRoot).filter(not(isRoot)).each(table => {
const cursor = SugarElement.fromText('');
after$5(table, cursor);
remove$6(table);
if (editor.dom.isEmpty(editor.getBody())) {
editor.setContent('');
editor.selection.setCursorLocation();
} else {
const rng = editor.dom.createRng();
rng.setStart(cursor.dom, 0);
rng.setEnd(cursor.dom, 0);
editor.selection.setRng(rng);
editor.nodeChanged();
}
});
});
const setSizingMode = sizing => getSelectionStartCellOrCaption(editor).each(cellOrCaption => {
const isForcedSizing = isTableResponsiveForced(editor) || isTablePixelsForced(editor) || isTablePercentagesForced(editor);
if (!isForcedSizing) {
table(cellOrCaption, isRoot).each(table => {
if (sizing === 'relative' && !isPercentSizing(table)) {
convertToPercentSizeWidth(table);
} else if (sizing === 'fixed' && !isPixelSizing(table)) {
convertToPixelSizeWidth(table);
} else if (sizing === 'responsive' && !isNoneSizing(table)) {
convertToNoneSizeWidth(table);
}
removeDataStyle(table);
fireTableModified(editor, table.dom, structureModified);
});
}
});
const getTableFromCell = cell => table(cell, isRoot);
const performActionOnSelection = action => getSelectionStartCell(editor).bind(cell => getTableFromCell(cell).map(table => action(table, cell)));
const toggleTableClass = (_ui, clazz) => {
performActionOnSelection(table => {
editor.formatter.toggle('tableclass', { value: clazz }, table.dom);
fireTableModified(editor, table.dom, styleModified);
});
};
const toggleTableCellClass = (_ui, clazz) => {
performActionOnSelection(table => {
const selectedCells = getCellsFromSelection(editor);
const allHaveClass = forall(selectedCells, cell => editor.formatter.match('tablecellclass', { value: clazz }, cell.dom));
const formatterAction = allHaveClass ? editor.formatter.remove : editor.formatter.apply;
each$2(selectedCells, cell => formatterAction('tablecellclass', { value: clazz }, cell.dom));
fireTableModified(editor, table.dom, styleModified);
});
};
const toggleCaption = () => {
getSelectionStartCellOrCaption(editor).each(cellOrCaption => {
table(cellOrCaption, isRoot).each(table => {
child(table, 'caption').fold(() => {
const caption = SugarElement.fromTag('caption');
append$1(caption, SugarElement.fromText('Caption'));
appendAt(table, caption, 0);
editor.selection.setCursorLocation(caption.dom, 0);
}, caption => {
if (isTag('caption')(cellOrCaption)) {
one('td', table).each(td => editor.selection.setCursorLocation(td.dom, 0));
}
remove$6(caption);
});
fireTableModified(editor, table.dom, structureModified);
});
});
};
const postExecute = _data => {
editor.focus();
};
const actOnSelection = (execute, noEvents = false) => performActionOnSelection((table, startCell) => {
const targets = forMenu(getCellsFromSelection(editor), table, startCell);
execute(table, targets, noEvents).each(postExecute);
});
const copyRowSelection = () => performActionOnSelection((table, startCell) => {
const targets = forMenu(getCellsFromSelection(editor), table, startCell);
const generators = cellOperations(noop, SugarElement.fromDom(editor.getDoc()), Optional.none());
return copyRows(table, targets, generators);
});
const copyColSelection = () => performActionOnSelection((table, startCell) => {
const targets = forMenu(getCellsFromSelection(editor), table, startCell);
return copyCols(table, targets);
});
const pasteOnSelection = (execute, getRows) => getRows().each(rows => {
const clonedRows = map$1(rows, row => deep(row));
performActionOnSelection((table, startCell) => {
const generators = paste$1(SugarElement.fromDom(editor.getDoc()));
const targets = pasteRows(getCellsFromSelection(editor), startCell, clonedRows, generators);
execute(table, targets).each(postExecute);
});
});
const actOnType = getAction => (_ui, args) => get$c(args, 'type').each(type => {
actOnSelection(getAction(type), args.no_events);
});
each$1({
mceTableSplitCells: () => actOnSelection(actions.unmergeCells),
mceTableMergeCells: () => actOnSelection(actions.mergeCells),
mceTableInsertRowBefore: () => actOnSelection(actions.insertRowsBefore),
mceTableInsertRowAfter: () => actOnSelection(actions.insertRowsAfter),
mceTableInsertColBefore: () => actOnSelection(actions.insertColumnsBefore),
mceTableInsertColAfter: () => actOnSelection(actions.insertColumnsAfter),
mceTableDeleteCol: () => actOnSelection(actions.deleteColumn),
mceTableDeleteRow: () => actOnSelection(actions.deleteRow),
mceTableCutCol: () => copyColSelection().each(selection => {
setColumns(selection);
actOnSelection(actions.deleteColumn);
}),
mceTableCutRow: () => copyRowSelection().each(selection => {
setRows(selection);
actOnSelection(actions.deleteRow);
}),
mceTableCopyCol: () => copyColSelection().each(selection => setColumns(selection)),
mceTableCopyRow: () => copyRowSelection().each(selection => setRows(selection)),
mceTablePasteColBefore: () => pasteOnSelection(actions.pasteColsBefore, getColumns),
mceTablePasteColAfter: () => pasteOnSelection(actions.pasteColsAfter, getColumns),
mceTablePasteRowBefore: () => pasteOnSelection(actions.pasteRowsBefore, getRows),
mceTablePasteRowAfter: () => pasteOnSelection(actions.pasteRowsAfter, getRows),
mceTableDelete: eraseTable,
mceTableCellToggleClass: toggleTableCellClass,
mceTableToggleClass: toggleTableClass,
mceTableToggleCaption: toggleCaption,
mceTableSizingMode: (_ui, sizing) => setSizingMode(sizing),
mceTableCellType: actOnType(type => type === 'th' ? actions.makeCellsHeader : actions.unmakeCellsHeader),
mceTableColType: actOnType(type => type === 'th' ? actions.makeColumnsHeader : actions.unmakeColumnsHeader),
mceTableRowType: actOnType(type => {
switch (type) {
case 'header':
return actions.makeRowsHeader;
case 'footer':
return actions.makeRowsFooter;
default:
return actions.makeRowsBody;
}
})
}, (func, name) => editor.addCommand(name, func));
editor.addCommand('mceInsertTable', (_ui, args) => {
insertTable(editor, args.rows, args.columns, args.options);
});
editor.addCommand('mceTableApplyCellStyle', (_ui, args) => {
const getFormatName = style => 'tablecell' + style.toLowerCase().replace('-', '');
if (!isObject(args)) {
return;
}
const cells = filter$2(getCellsFromSelection(editor), isInEditableContext$1);
if (cells.length === 0) {
return;
}
const validArgs = filter$1(args, (value, style) => editor.formatter.has(getFormatName(style)) && isString(value));
if (isEmpty(validArgs)) {
return;
}
each$1(validArgs, (value, style) => {
const formatName = getFormatName(style);
each$2(cells, cell => {
if (value === '') {
editor.formatter.remove(formatName, { value: null }, cell.dom, true);
} else {
editor.formatter.apply(formatName, { value }, cell.dom);
}
});
});
getTableFromCell(cells[0]).each(table => fireTableModified(editor, table.dom, styleModified));
});
};
const registerQueryCommands = (editor, actions) => {
const isRoot = getIsRoot(editor);
const lookupOnSelection = action => getSelectionCell(getSelectionStart(editor)).bind(cell => table(cell, isRoot).map(table => {
const targets = forMenu(getCellsFromSelection(editor), table, cell);
return action(table, targets);
})).getOr('');
each$1({
mceTableRowType: () => lookupOnSelection(actions.getTableRowType),
mceTableCellType: () => lookupOnSelection(actions.getTableCellType),
mceTableColType: () => lookupOnSelection(actions.getTableColType)
}, (func, name) => editor.addQueryValueHandler(name, func));
};
const adt$4 = Adt.generate([
{ before: ['element'] },
{
on: [
'element',
'offset'
]
},
{ after: ['element'] }
]);
const cata$1 = (subject, onBefore, onOn, onAfter) => subject.fold(onBefore, onOn, onAfter);
const getStart$1 = situ => situ.fold(identity, identity, identity);
const before$2 = adt$4.before;
const on = adt$4.on;
const after$3 = adt$4.after;
const Situ = {
before: before$2,
on,
after: after$3,
cata: cata$1,
getStart: getStart$1
};
const create$4 = (selection, kill) => ({
selection,
kill
});
const Response = { create: create$4 };
const selectNode = (win, element) => {
const rng = win.document.createRange();
rng.selectNode(element.dom);
return rng;
};
const selectNodeContents = (win, element) => {
const rng = win.document.createRange();
selectNodeContentsUsing(rng, element);
return rng;
};
const selectNodeContentsUsing = (rng, element) => rng.selectNodeContents(element.dom);
const setStart = (rng, situ) => {
situ.fold(e => {
rng.setStartBefore(e.dom);
}, (e, o) => {
rng.setStart(e.dom, o);
}, e => {
rng.setStartAfter(e.dom);
});
};
const setFinish = (rng, situ) => {
situ.fold(e => {
rng.setEndBefore(e.dom);
}, (e, o) => {
rng.setEnd(e.dom, o);
}, e => {
rng.setEndAfter(e.dom);
});
};
const relativeToNative = (win, startSitu, finishSitu) => {
const range = win.document.createRange();
setStart(range, startSitu);
setFinish(range, finishSitu);
return range;
};
const exactToNative = (win, start, soffset, finish, foffset) => {
const rng = win.document.createRange();
rng.setStart(start.dom, soffset);
rng.setEnd(finish.dom, foffset);
return rng;
};
const toRect = rect => ({
left: rect.left,
top: rect.top,
right: rect.right,
bottom: rect.bottom,
width: rect.width,
height: rect.height
});
const getFirstRect$1 = rng => {
const rects = rng.getClientRects();
const rect = rects.length > 0 ? rects[0] : rng.getBoundingClientRect();
return rect.width > 0 || rect.height > 0 ? Optional.some(rect).map(toRect) : Optional.none();
};
const adt$3 = Adt.generate([
{
ltr: [
'start',
'soffset',
'finish',
'foffset'
]
},
{
rtl: [
'start',
'soffset',
'finish',
'foffset'
]
}
]);
const fromRange = (win, type, range) => type(SugarElement.fromDom(range.startContainer), range.startOffset, SugarElement.fromDom(range.endContainer), range.endOffset);
const getRanges = (win, selection) => selection.match({
domRange: rng => {
return {
ltr: constant(rng),
rtl: Optional.none
};
},
relative: (startSitu, finishSitu) => {
return {
ltr: cached(() => relativeToNative(win, startSitu, finishSitu)),
rtl: cached(() => Optional.some(relativeToNative(win, finishSitu, startSitu)))
};
},
exact: (start, soffset, finish, foffset) => {
return {
ltr: cached(() => exactToNative(win, start, soffset, finish, foffset)),
rtl: cached(() => Optional.some(exactToNative(win, finish, foffset, start, soffset)))
};
}
});
const doDiagnose = (win, ranges) => {
const rng = ranges.ltr();
if (rng.collapsed) {
const reversed = ranges.rtl().filter(rev => rev.collapsed === false);
return reversed.map(rev => adt$3.rtl(SugarElement.fromDom(rev.endContainer), rev.endOffset, SugarElement.fromDom(rev.startContainer), rev.startOffset)).getOrThunk(() => fromRange(win, adt$3.ltr, rng));
} else {
return fromRange(win, adt$3.ltr, rng);
}
};
const diagnose = (win, selection) => {
const ranges = getRanges(win, selection);
return doDiagnose(win, ranges);
};
const asLtrRange = (win, selection) => {
const diagnosis = diagnose(win, selection);
return diagnosis.match({
ltr: (start, soffset, finish, foffset) => {
const rng = win.document.createRange();
rng.setStart(start.dom, soffset);
rng.setEnd(finish.dom, foffset);
return rng;
},
rtl: (start, soffset, finish, foffset) => {
const rng = win.document.createRange();
rng.setStart(finish.dom, foffset);
rng.setEnd(start.dom, soffset);
return rng;
}
});
};
adt$3.ltr;
adt$3.rtl;
const create$3 = (start, soffset, finish, foffset) => ({
start,
soffset,
finish,
foffset
});
const SimRange = { create: create$3 };
const create$2 = (start, soffset, finish, foffset) => {
return {
start: Situ.on(start, soffset),
finish: Situ.on(finish, foffset)
};
};
const Situs = { create: create$2 };
const convertToRange = (win, selection) => {
const rng = asLtrRange(win, selection);
return SimRange.create(SugarElement.fromDom(rng.startContainer), rng.startOffset, SugarElement.fromDom(rng.endContainer), rng.endOffset);
};
const makeSitus = Situs.create;
const sync = (container, isRoot, start, soffset, finish, foffset, selectRange) => {
if (!(eq$1(start, finish) && soffset === foffset)) {
return closest$1(start, 'td,th', isRoot).bind(s => {
return closest$1(finish, 'td,th', isRoot).bind(f => {
return detect(container, isRoot, s, f, selectRange);
});
});
} else {
return Optional.none();
}
};
const detect = (container, isRoot, start, finish, selectRange) => {
if (!eq$1(start, finish)) {
return identify(start, finish, isRoot).bind(cellSel => {
const boxes = cellSel.boxes.getOr([]);
if (boxes.length > 1) {
selectRange(container, boxes, cellSel.start, cellSel.finish);
return Optional.some(Response.create(Optional.some(makeSitus(start, 0, start, getEnd(start))), true));
} else {
return Optional.none();
}
});
} else {
return Optional.none();
}
};
const update = (rows, columns, container, selected, annotations) => {
const updateSelection = newSels => {
annotations.clearBeforeUpdate(container);
annotations.selectRange(container, newSels.boxes, newSels.start, newSels.finish);
return newSels.boxes;
};
return shiftSelection(selected, rows, columns, annotations.firstSelectedSelector, annotations.lastSelectedSelector).map(updateSelection);
};
const traverse = (item, mode) => ({
item,
mode
});
const backtrack = (universe, item, _direction, transition = sidestep) => {
return universe.property().parent(item).map(p => {
return traverse(p, transition);
});
};
const sidestep = (universe, item, direction, transition = advance) => {
return direction.sibling(universe, item).map(p => {
return traverse(p, transition);
});
};
const advance = (universe, item, direction, transition = advance) => {
const children = universe.property().children(item);
const result = direction.first(children);
return result.map(r => {
return traverse(r, transition);
});
};
const successors = [
{
current: backtrack,
next: sidestep,
fallback: Optional.none()
},
{
current: sidestep,
next: advance,
fallback: Optional.some(backtrack)
},
{
current: advance,
next: advance,
fallback: Optional.some(sidestep)
}
];
const go = (universe, item, mode, direction, rules = successors) => {
const ruleOpt = find$1(rules, succ => {
return succ.current === mode;
});
return ruleOpt.bind(rule => {
return rule.current(universe, item, direction, rule.next).orThunk(() => {
return rule.fallback.bind(fb => {
return go(universe, item, fb, direction);
});
});
});
};
const left$1 = () => {
const sibling = (universe, item) => {
return universe.query().prevSibling(item);
};
const first = children => {
return children.length > 0 ? Optional.some(children[children.length - 1]) : Optional.none();
};
return {
sibling,
first
};
};
const right$1 = () => {
const sibling = (universe, item) => {
return universe.query().nextSibling(item);
};
const first = children => {
return children.length > 0 ? Optional.some(children[0]) : Optional.none();
};
return {
sibling,
first
};
};
const Walkers = {
left: left$1,
right: right$1
};
const hone = (universe, item, predicate, mode, direction, isRoot) => {
const next = go(universe, item, mode, direction);
return next.bind(n => {
if (isRoot(n.item)) {
return Optional.none();
} else {
return predicate(n.item) ? Optional.some(n.item) : hone(universe, n.item, predicate, n.mode, direction, isRoot);
}
});
};
const left = (universe, item, predicate, isRoot) => {
return hone(universe, item, predicate, sidestep, Walkers.left(), isRoot);
};
const right = (universe, item, predicate, isRoot) => {
return hone(universe, item, predicate, sidestep, Walkers.right(), isRoot);
};
const isLeaf = universe => element => universe.property().children(element).length === 0;
const before$1 = (universe, item, isRoot) => {
return seekLeft$1(universe, item, isLeaf(universe), isRoot);
};
const after$2 = (universe, item, isRoot) => {
return seekRight$1(universe, item, isLeaf(universe), isRoot);
};
const seekLeft$1 = left;
const seekRight$1 = right;
const universe = DomUniverse();
const before = (element, isRoot) => {
return before$1(universe, element, isRoot);
};
const after$1 = (element, isRoot) => {
return after$2(universe, element, isRoot);
};
const seekLeft = (element, predicate, isRoot) => {
return seekLeft$1(universe, element, predicate, isRoot);
};
const seekRight = (element, predicate, isRoot) => {
return seekRight$1(universe, element, predicate, isRoot);
};
const ancestor = (scope, predicate, isRoot) => ancestor$2(scope, predicate, isRoot).isSome();
const adt$2 = Adt.generate([
{ none: ['message'] },
{ success: [] },
{ failedUp: ['cell'] },
{ failedDown: ['cell'] }
]);
const isOverlapping = (bridge, before, after) => {
const beforeBounds = bridge.getRect(before);
const afterBounds = bridge.getRect(after);
return afterBounds.right > beforeBounds.left && afterBounds.left < beforeBounds.right;
};
const isRow = elem => {
return closest$1(elem, 'tr');
};
const verify = (bridge, before, beforeOffset, after, afterOffset, failure, isRoot) => {
return closest$1(after, 'td,th', isRoot).bind(afterCell => {
return closest$1(before, 'td,th', isRoot).map(beforeCell => {
if (!eq$1(afterCell, beforeCell)) {
return sharedOne(isRow, [
afterCell,
beforeCell
]).fold(() => {
return isOverlapping(bridge, beforeCell, afterCell) ? adt$2.success() : failure(beforeCell);
}, _sharedRow => {
return failure(beforeCell);
});
} else {
return eq$1(after, afterCell) && getEnd(afterCell) === afterOffset ? failure(beforeCell) : adt$2.none('in same cell');
}
});
}).getOr(adt$2.none('default'));
};
const cata = (subject, onNone, onSuccess, onFailedUp, onFailedDown) => {
return subject.fold(onNone, onSuccess, onFailedUp, onFailedDown);
};
const BeforeAfter = {
...adt$2,
verify,
cata
};
const inParent = (parent, children, element, index) => ({
parent,
children,
element,
index
});
const indexInParent = element => parent(element).bind(parent => {
const children = children$2(parent);
return indexOf(children, element).map(index => inParent(parent, children, element, index));
});
const indexOf = (elements, element) => findIndex(elements, curry(eq$1, element));
const isBr = isTag('br');
const gatherer = (cand, gather, isRoot) => {
return gather(cand, isRoot).bind(target => {
return isText(target) && get$6(target).trim().length === 0 ? gatherer(target, gather, isRoot) : Optional.some(target);
});
};
const handleBr = (isRoot, element, direction) => {
return direction.traverse(element).orThunk(() => {
return gatherer(element, direction.gather, isRoot);
}).map(direction.relative);
};
const findBr = (element, offset) => {
return child$2(element, offset).filter(isBr).orThunk(() => {
return child$2(element, offset - 1).filter(isBr);
});
};
const handleParent = (isRoot, element, offset, direction) => {
return findBr(element, offset).bind(br => {
return direction.traverse(br).fold(() => {
return gatherer(br, direction.gather, isRoot).map(direction.relative);
}, adjacent => {
return indexInParent(adjacent).map(info => {
return Situ.on(info.parent, info.index);
});
});
});
};
const tryBr = (isRoot, element, offset, direction) => {
const target = isBr(element) ? handleBr(isRoot, element, direction) : handleParent(isRoot, element, offset, direction);
return target.map(tgt => {
return {
start: tgt,
finish: tgt
};
});
};
const process = analysis => {
return BeforeAfter.cata(analysis, _message => {
return Optional.none();
}, () => {
return Optional.none();
}, cell => {
return Optional.some(point(cell, 0));
}, cell => {
return Optional.some(point(cell, getEnd(cell)));
});
};
const moveDown = (caret, amount) => {
return {
left: caret.left,
top: caret.top + amount,
right: caret.right,
bottom: caret.bottom + amount
};
};
const moveUp = (caret, amount) => {
return {
left: caret.left,
top: caret.top - amount,
right: caret.right,
bottom: caret.bottom - amount
};
};
const translate = (caret, xDelta, yDelta) => {
return {
left: caret.left + xDelta,
top: caret.top + yDelta,
right: caret.right + xDelta,
bottom: caret.bottom + yDelta
};
};
const getTop = caret => {
return caret.top;
};
const getBottom = caret => {
return caret.bottom;
};
const getPartialBox = (bridge, element, offset) => {
if (offset >= 0 && offset < getEnd(element)) {
return bridge.getRangedRect(element, offset, element, offset + 1);
} else if (offset > 0) {
return bridge.getRangedRect(element, offset - 1, element, offset);
}
return Optional.none();
};
const toCaret = rect => ({
left: rect.left,
top: rect.top,
right: rect.right,
bottom: rect.bottom
});
const getElemBox = (bridge, element) => {
return Optional.some(bridge.getRect(element));
};
const getBoxAt = (bridge, element, offset) => {
if (isElement(element)) {
return getElemBox(bridge, element).map(toCaret);
} else if (isText(element)) {
return getPartialBox(bridge, element, offset).map(toCaret);
} else {
return Optional.none();
}
};
const getEntireBox = (bridge, element) => {
if (isElement(element)) {
return getElemBox(bridge, element).map(toCaret);
} else if (isText(element)) {
return bridge.getRangedRect(element, 0, element, getEnd(element)).map(toCaret);
} else {
return Optional.none();
}
};
const JUMP_SIZE = 5;
const NUM_RETRIES = 100;
const adt$1 = Adt.generate([
{ none: [] },
{ retry: ['caret'] }
]);
const isOutside = (caret, box) => {
return caret.left < box.left || Math.abs(box.right - caret.left) < 1 || caret.left > box.right;
};
const inOutsideBlock = (bridge, element, caret) => {
return closest$2(element, isBlock).fold(never, cell => {
return getEntireBox(bridge, cell).exists(box => {
return isOutside(caret, box);
});
});
};
const adjustDown = (bridge, element, guessBox, original, caret) => {
const lowerCaret = moveDown(caret, JUMP_SIZE);
if (Math.abs(guessBox.bottom - original.bottom) < 1) {
return adt$1.retry(lowerCaret);
} else if (guessBox.top > caret.bottom) {
return adt$1.retry(lowerCaret);
} else if (guessBox.top === caret.bottom) {
return adt$1.retry(moveDown(caret, 1));
} else {
return inOutsideBlock(bridge, element, caret) ? adt$1.retry(translate(lowerCaret, JUMP_SIZE, 0)) : adt$1.none();
}
};
const adjustUp = (bridge, element, guessBox, original, caret) => {
const higherCaret = moveUp(caret, JUMP_SIZE);
if (Math.abs(guessBox.top - original.top) < 1) {
return adt$1.retry(higherCaret);
} else if (guessBox.bottom < caret.top) {
return adt$1.retry(higherCaret);
} else if (guessBox.bottom === caret.top) {
return adt$1.retry(moveUp(caret, 1));
} else {
return inOutsideBlock(bridge, element, caret) ? adt$1.retry(translate(higherCaret, JUMP_SIZE, 0)) : adt$1.none();
}
};
const upMovement = {
point: getTop,
adjuster: adjustUp,
move: moveUp,
gather: before
};
const downMovement = {
point: getBottom,
adjuster: adjustDown,
move: moveDown,
gather: after$1
};
const isAtTable = (bridge, x, y) => {
return bridge.elementFromPoint(x, y).filter(elm => {
return name(elm) === 'table';
}).isSome();
};
const adjustForTable = (bridge, movement, original, caret, numRetries) => {
return adjustTil(bridge, movement, original, movement.move(caret, JUMP_SIZE), numRetries);
};
const adjustTil = (bridge, movement, original, caret, numRetries) => {
if (numRetries === 0) {
return Optional.some(caret);
}
if (isAtTable(bridge, caret.left, movement.point(caret))) {
return adjustForTable(bridge, movement, original, caret, numRetries - 1);
}
return bridge.situsFromPoint(caret.left, movement.point(caret)).bind(guess => {
return guess.start.fold(Optional.none, element => {
return getEntireBox(bridge, element).bind(guessBox => {
return movement.adjuster(bridge, element, guessBox, original, caret).fold(Optional.none, newCaret => {
return adjustTil(bridge, movement, original, newCaret, numRetries - 1);
});
}).orThunk(() => {
return Optional.some(caret);
});
}, Optional.none);
});
};
const checkScroll = (movement, adjusted, bridge) => {
if (movement.point(adjusted) > bridge.getInnerHeight()) {
return Optional.some(movement.point(adjusted) - bridge.getInnerHeight());
} else if (movement.point(adjusted) < 0) {
return Optional.some(-movement.point(adjusted));
} else {
return Optional.none();
}
};
const retry = (movement, bridge, caret) => {
const moved = movement.move(caret, JUMP_SIZE);
const adjusted = adjustTil(bridge, movement, caret, moved, NUM_RETRIES).getOr(moved);
return checkScroll(movement, adjusted, bridge).fold(() => {
return bridge.situsFromPoint(adjusted.left, movement.point(adjusted));
}, delta => {
bridge.scrollBy(0, delta);
return bridge.situsFromPoint(adjusted.left, movement.point(adjusted) - delta);
});
};
const Retries = {
tryUp: curry(retry, upMovement),
tryDown: curry(retry, downMovement),
getJumpSize: constant(JUMP_SIZE)
};
const MAX_RETRIES = 20;
const findSpot = (bridge, isRoot, direction) => {
return bridge.getSelection().bind(sel => {
return tryBr(isRoot, sel.finish, sel.foffset, direction).fold(() => {
return Optional.some(point(sel.finish, sel.foffset));
}, brNeighbour => {
const range = bridge.fromSitus(brNeighbour);
const analysis = BeforeAfter.verify(bridge, sel.finish, sel.foffset, range.finish, range.foffset, direction.failure, isRoot);
return process(analysis);
});
});
};
const scan = (bridge, isRoot, element, offset, direction, numRetries) => {
if (numRetries === 0) {
return Optional.none();
}
return tryCursor(bridge, isRoot, element, offset, direction).bind(situs => {
const range = bridge.fromSitus(situs);
const analysis = BeforeAfter.verify(bridge, element, offset, range.finish, range.foffset, direction.failure, isRoot);
return BeforeAfter.cata(analysis, () => {
return Optional.none();
}, () => {
return Optional.some(situs);
}, cell => {
if (eq$1(element, cell) && offset === 0) {
return tryAgain(bridge, element, offset, moveUp, direction);
} else {
return scan(bridge, isRoot, cell, 0, direction, numRetries - 1);
}
}, cell => {
if (eq$1(element, cell) && offset === getEnd(cell)) {
return tryAgain(bridge, element, offset, moveDown, direction);
} else {
return scan(bridge, isRoot, cell, getEnd(cell), direction, numRetries - 1);
}
});
});
};
const tryAgain = (bridge, element, offset, move, direction) => {
return getBoxAt(bridge, element, offset).bind(box => {
return tryAt(bridge, direction, move(box, Retries.getJumpSize()));
});
};
const tryAt = (bridge, direction, box) => {
const browser = detect$2().browser;
if (browser.isChromium() || browser.isSafari() || browser.isFirefox()) {
return direction.retry(bridge, box);
} else {
return Optional.none();
}
};
const tryCursor = (bridge, isRoot, element, offset, direction) => {
return getBoxAt(bridge, element, offset).bind(box => {
return tryAt(bridge, direction, box);
});
};
const handle$1 = (bridge, isRoot, direction) => {
return findSpot(bridge, isRoot, direction).bind(spot => {
return scan(bridge, isRoot, spot.element, spot.offset, direction, MAX_RETRIES).map(bridge.fromSitus);
});
};
const inSameTable = (elem, table) => {
return ancestor(elem, e => {
return parent(e).exists(p => {
return eq$1(p, table);
});
});
};
const simulate = (bridge, isRoot, direction, initial, anchor) => {
return closest$1(initial, 'td,th', isRoot).bind(start => {
return closest$1(start, 'table', isRoot).bind(table => {
if (!inSameTable(anchor, table)) {
return Optional.none();
}
return handle$1(bridge, isRoot, direction).bind(range => {
return closest$1(range.finish, 'td,th', isRoot).map(finish => {
return {
start,
finish,
range
};
});
});
});
});
};
const navigate = (bridge, isRoot, direction, initial, anchor, precheck) => {
return precheck(initial, isRoot).orThunk(() => {
return simulate(bridge, isRoot, direction, initial, anchor).map(info => {
const range = info.range;
return Response.create(Optional.some(makeSitus(range.start, range.soffset, range.finish, range.foffset)), true);
});
});
};
const firstUpCheck = (initial, isRoot) => {
return closest$1(initial, 'tr', isRoot).bind(startRow => {
return closest$1(startRow, 'table', isRoot).bind(table => {
const rows = descendants(table, 'tr');
if (eq$1(startRow, rows[0])) {
return seekLeft(table, element => {
return last$1(element).isSome();
}, isRoot).map(last => {
const lastOffset = getEnd(last);
return Response.create(Optional.some(makeSitus(last, lastOffset, last, lastOffset)), true);
});
} else {
return Optional.none();
}
});
});
};
const lastDownCheck = (initial, isRoot) => {
return closest$1(initial, 'tr', isRoot).bind(startRow => {
return closest$1(startRow, 'table', isRoot).bind(table => {
const rows = descendants(table, 'tr');
if (eq$1(startRow, rows[rows.length - 1])) {
return seekRight(table, element => {
return first(element).isSome();
}, isRoot).map(first => {
return Response.create(Optional.some(makeSitus(first, 0, first, 0)), true);
});
} else {
return Optional.none();
}
});
});
};
const select = (bridge, container, isRoot, direction, initial, anchor, selectRange) => {
return simulate(bridge, isRoot, direction, initial, anchor).bind(info => {
return detect(container, isRoot, info.start, info.finish, selectRange);
});
};
const Cell = initial => {
let value = initial;
const get = () => {
return value;
};
const set = v => {
value = v;
};
return {
get,
set
};
};
const singleton = doRevoke => {
const subject = Cell(Optional.none());
const revoke = () => subject.get().each(doRevoke);
const clear = () => {
revoke();
subject.set(Optional.none());
};
const isSet = () => subject.get().isSome();
const get = () => subject.get();
const set = s => {
revoke();
subject.set(Optional.some(s));
};
return {
clear,
isSet,
get,
set
};
};
const value = () => {
const subject = singleton(noop);
const on = f => subject.get().each(f);
return {
...subject,
on
};
};
const findCell = (target, isRoot) => closest$1(target, 'td,th', isRoot);
const isInEditableContext = cell => parentElement(cell).exists(isEditable$1);
const MouseSelection = (bridge, container, isRoot, annotations) => {
const cursor = value();
const clearstate = cursor.clear;
const applySelection = event => {
cursor.on(start => {
annotations.clearBeforeUpdate(container);
findCell(event.target, isRoot).each(finish => {
identify(start, finish, isRoot).each(cellSel => {
const boxes = cellSel.boxes.getOr([]);
if (boxes.length === 1) {
const singleCell = boxes[0];
const isNonEditableCell = getRaw(singleCell) === 'false';
const isCellClosestContentEditable = is(closest(event.target), singleCell, eq$1);
if (isNonEditableCell && isCellClosestContentEditable) {
annotations.selectRange(container, boxes, singleCell, singleCell);
}
} else if (boxes.length > 1) {
annotations.selectRange(container, boxes, cellSel.start, cellSel.finish);
bridge.selectContents(finish);
}
});
});
});
};
const mousedown = event => {
annotations.clear(container);
findCell(event.target, isRoot).filter(isInEditableContext).each(cursor.set);
};
const mouseover = event => {
applySelection(event);
};
const mouseup = event => {
applySelection(event);
clearstate();
};
return {
clearstate,
mousedown,
mouseover,
mouseup
};
};
const down = {
traverse: nextSibling,
gather: after$1,
relative: Situ.before,
retry: Retries.tryDown,
failure: BeforeAfter.failedDown
};
const up = {
traverse: prevSibling,
gather: before,
relative: Situ.before,
retry: Retries.tryUp,
failure: BeforeAfter.failedUp
};
const isKey = key => {
return keycode => {
return keycode === key;
};
};
const isUp = isKey(38);
const isDown = isKey(40);
const isNavigation = keycode => {
return keycode >= 37 && keycode <= 40;
};
const ltr = {
isBackward: isKey(37),
isForward: isKey(39)
};
const rtl = {
isBackward: isKey(39),
isForward: isKey(37)
};
const get$3 = _DOC => {
const doc = _DOC !== undefined ? _DOC.dom : document;
const x = doc.body.scrollLeft || doc.documentElement.scrollLeft;
const y = doc.body.scrollTop || doc.documentElement.scrollTop;
return SugarPosition(x, y);
};
const by = (x, y, _DOC) => {
const doc = _DOC !== undefined ? _DOC.dom : document;
const win = doc.defaultView;
if (win) {
win.scrollBy(x, y);
}
};
const adt = Adt.generate([
{ domRange: ['rng'] },
{
relative: [
'startSitu',
'finishSitu'
]
},
{
exact: [
'start',
'soffset',
'finish',
'foffset'
]
}
]);
const exactFromRange = simRange => adt.exact(simRange.start, simRange.soffset, simRange.finish, simRange.foffset);
const getStart = selection => selection.match({
domRange: rng => SugarElement.fromDom(rng.startContainer),
relative: (startSitu, _finishSitu) => Situ.getStart(startSitu),
exact: (start, _soffset, _finish, _foffset) => start
});
const domRange = adt.domRange;
const relative = adt.relative;
const exact = adt.exact;
const getWin = selection => {
const start = getStart(selection);
return defaultView(start);
};
const range = SimRange.create;
const SimSelection = {
domRange,
relative,
exact,
exactFromRange,
getWin,
range
};
const caretPositionFromPoint = (doc, x, y) => {
var _a;
return Optional.from((_a = doc.caretPositionFromPoint) === null || _a === void 0 ? void 0 : _a.call(doc, x, y)).bind(pos => {
if (pos.offsetNode === null) {
return Optional.none();
}
const r = doc.createRange();
r.setStart(pos.offsetNode, pos.offset);
r.collapse();
return Optional.some(r);
});
};
const caretRangeFromPoint = (doc, x, y) => {
var _a;
return Optional.from((_a = doc.caretRangeFromPoint) === null || _a === void 0 ? void 0 : _a.call(doc, x, y));
};
const availableSearch = (doc, x, y) => {
if (doc.caretPositionFromPoint) {
return caretPositionFromPoint(doc, x, y);
} else if (doc.caretRangeFromPoint) {
return caretRangeFromPoint(doc, x, y);
} else {
return Optional.none();
}
};
const fromPoint = (win, x, y) => {
const doc = win.document;
return availableSearch(doc, x, y).map(rng => SimRange.create(SugarElement.fromDom(rng.startContainer), rng.startOffset, SugarElement.fromDom(rng.endContainer), rng.endOffset));
};
const beforeSpecial = (element, offset) => {
const name$1 = name(element);
if ('input' === name$1) {
return Situ.after(element);
} else if (!contains$2([
'br',
'img'
], name$1)) {
return Situ.on(element, offset);
} else {
return offset === 0 ? Situ.before(element) : Situ.after(element);
}
};
const preprocessRelative = (startSitu, finishSitu) => {
const start = startSitu.fold(Situ.before, beforeSpecial, Situ.after);
const finish = finishSitu.fold(Situ.before, beforeSpecial, Situ.after);
return SimSelection.relative(start, finish);
};
const preprocessExact = (start, soffset, finish, foffset) => {
const startSitu = beforeSpecial(start, soffset);
const finishSitu = beforeSpecial(finish, foffset);
return SimSelection.relative(startSitu, finishSitu);
};
const makeRange = (start, soffset, finish, foffset) => {
const doc = owner(start);
const rng = doc.dom.createRange();
rng.setStart(start.dom, soffset);
rng.setEnd(finish.dom, foffset);
return rng;
};
const after = (start, soffset, finish, foffset) => {
const r = makeRange(start, soffset, finish, foffset);
const same = eq$1(start, finish) && soffset === foffset;
return r.collapsed && !same;
};
const getNativeSelection = win => Optional.from(win.getSelection());
const doSetNativeRange = (win, rng) => {
getNativeSelection(win).each(selection => {
selection.removeAllRanges();
selection.addRange(rng);
});
};
const doSetRange = (win, start, soffset, finish, foffset) => {
const rng = exactToNative(win, start, soffset, finish, foffset);
doSetNativeRange(win, rng);
};
const setLegacyRtlRange = (win, selection, start, soffset, finish, foffset) => {
selection.collapse(start.dom, soffset);
selection.extend(finish.dom, foffset);
};
const setRangeFromRelative = (win, relative) => diagnose(win, relative).match({
ltr: (start, soffset, finish, foffset) => {
doSetRange(win, start, soffset, finish, foffset);
},
rtl: (start, soffset, finish, foffset) => {
getNativeSelection(win).each(selection => {
if (selection.setBaseAndExtent) {
selection.setBaseAndExtent(start.dom, soffset, finish.dom, foffset);
} else if (selection.extend) {
try {
setLegacyRtlRange(win, selection, start, soffset, finish, foffset);
} catch (e) {
doSetRange(win, finish, foffset, start, soffset);
}
} else {
doSetRange(win, finish, foffset, start, soffset);
}
});
}
});
const setExact = (win, start, soffset, finish, foffset) => {
const relative = preprocessExact(start, soffset, finish, foffset);
setRangeFromRelative(win, relative);
};
const setRelative = (win, startSitu, finishSitu) => {
const relative = preprocessRelative(startSitu, finishSitu);
setRangeFromRelative(win, relative);
};
const readRange = selection => {
if (selection.rangeCount > 0) {
const firstRng = selection.getRangeAt(0);
const lastRng = selection.getRangeAt(selection.rangeCount - 1);
return Optional.some(SimRange.create(SugarElement.fromDom(firstRng.startContainer), firstRng.startOffset, SugarElement.fromDom(lastRng.endContainer), lastRng.endOffset));
} else {
return Optional.none();
}
};
const doGetExact = selection => {
if (selection.anchorNode === null || selection.focusNode === null) {
return readRange(selection);
} else {
const anchor = SugarElement.fromDom(selection.anchorNode);
const focus = SugarElement.fromDom(selection.focusNode);
return after(anchor, selection.anchorOffset, focus, selection.focusOffset) ? Optional.some(SimRange.create(anchor, selection.anchorOffset, focus, selection.focusOffset)) : readRange(selection);
}
};
const setToElement = (win, element, selectNodeContents$1 = true) => {
const rngGetter = selectNodeContents$1 ? selectNodeContents : selectNode;
const rng = rngGetter(win, element);
doSetNativeRange(win, rng);
};
const getExact = win => getNativeSelection(win).filter(sel => sel.rangeCount > 0).bind(doGetExact);
const get$2 = win => getExact(win).map(range => SimSelection.exact(range.start, range.soffset, range.finish, range.foffset));
const getFirstRect = (win, selection) => {
const rng = asLtrRange(win, selection);
return getFirstRect$1(rng);
};
const getAtPoint = (win, x, y) => fromPoint(win, x, y);
const clear = win => {
getNativeSelection(win).each(selection => selection.removeAllRanges());
};
const WindowBridge = win => {
const elementFromPoint = (x, y) => {
return SugarElement.fromPoint(SugarElement.fromDom(win.document), x, y);
};
const getRect = element => {
return element.dom.getBoundingClientRect();
};
const getRangedRect = (start, soffset, finish, foffset) => {
const sel = SimSelection.exact(start, soffset, finish, foffset);
return getFirstRect(win, sel);
};
const getSelection = () => {
return get$2(win).map(exactAdt => {
return convertToRange(win, exactAdt);
});
};
const fromSitus = situs => {
const relative = SimSelection.relative(situs.start, situs.finish);
return convertToRange(win, relative);
};
const situsFromPoint = (x, y) => {
return getAtPoint(win, x, y).map(exact => {
return Situs.create(exact.start, exact.soffset, exact.finish, exact.foffset);
});
};
const clearSelection = () => {
clear(win);
};
const collapseSelection = (toStart = false) => {
get$2(win).each(sel => sel.fold(rng => rng.collapse(toStart), (startSitu, finishSitu) => {
const situ = toStart ? startSitu : finishSitu;
setRelative(win, situ, situ);
}, (start, soffset, finish, foffset) => {
const node = toStart ? start : finish;
const offset = toStart ? soffset : foffset;
setExact(win, node, offset, node, offset);
}));
};
const selectNode = element => {
setToElement(win, element, false);
};
const selectContents = element => {
setToElement(win, element);
};
const setSelection = sel => {
setExact(win, sel.start, sel.soffset, sel.finish, sel.foffset);
};
const setRelativeSelection = (start, finish) => {
setRelative(win, start, finish);
};
const getInnerHeight = () => {
return win.innerHeight;
};
const getScrollY = () => {
const pos = get$3(SugarElement.fromDom(win.document));
return pos.top;
};
const scrollBy = (x, y) => {
by(x, y, SugarElement.fromDom(win.document));
};
return {
elementFromPoint,
getRect,
getRangedRect,
getSelection,
fromSitus,
situsFromPoint,
clearSelection,
collapseSelection,
setSelection,
setRelativeSelection,
selectNode,
selectContents,
getInnerHeight,
getScrollY,
scrollBy
};
};
const rc = (rows, cols) => ({
rows,
cols
});
const mouse = (win, container, isRoot, annotations) => {
const bridge = WindowBridge(win);
const handlers = MouseSelection(bridge, container, isRoot, annotations);
return {
clearstate: handlers.clearstate,
mousedown: handlers.mousedown,
mouseover: handlers.mouseover,
mouseup: handlers.mouseup
};
};
const isEditableNode = node => closest$2(node, isHTMLElement).exists(isEditable$1);
const isEditableSelection = (start, finish) => isEditableNode(start) || isEditableNode(finish);
const keyboard = (win, container, isRoot, annotations) => {
const bridge = WindowBridge(win);
const clearToNavigate = () => {
annotations.clear(container);
return Optional.none();
};
const keydown = (event, start, soffset, finish, foffset, direction) => {
const realEvent = event.raw;
const keycode = realEvent.which;
const shiftKey = realEvent.shiftKey === true;
const handler = retrieve$1(container, annotations.selectedSelector).fold(() => {
if (isNavigation(keycode) && !shiftKey) {
annotations.clearBeforeUpdate(container);
}
if (isNavigation(keycode) && shiftKey && !isEditableSelection(start, finish)) {
return Optional.none;
} else if (isDown(keycode) && shiftKey) {
return curry(select, bridge, container, isRoot, down, finish, start, annotations.selectRange);
} else if (isUp(keycode) && shiftKey) {
return curry(select, bridge, container, isRoot, up, finish, start, annotations.selectRange);
} else if (isDown(keycode)) {
return curry(navigate, bridge, isRoot, down, finish, start, lastDownCheck);
} else if (isUp(keycode)) {
return curry(navigate, bridge, isRoot, up, finish, start, firstUpCheck);
} else {
return Optional.none;
}
}, selected => {
const update$1 = attempts => {
return () => {
const navigation = findMap(attempts, delta => {
return update(delta.rows, delta.cols, container, selected, annotations);
});
return navigation.fold(() => {
return getEdges(container, annotations.firstSelectedSelector, annotations.lastSelectedSelector).map(edges => {
const relative = isDown(keycode) || direction.isForward(keycode) ? Situ.after : Situ.before;
bridge.setRelativeSelection(Situ.on(edges.first, 0), relative(edges.table));
annotations.clear(container);
return Response.create(Optional.none(), true);
});
}, _ => {
return Optional.some(Response.create(Optional.none(), true));
});
};
};
if (isNavigation(keycode) && shiftKey && !isEditableSelection(start, finish)) {
return Optional.none;
} else if (isDown(keycode) && shiftKey) {
return update$1([rc(+1, 0)]);
} else if (isUp(keycode) && shiftKey) {
return update$1([rc(-1, 0)]);
} else if (direction.isBackward(keycode) && shiftKey) {
return update$1([
rc(0, -1),
rc(-1, 0)
]);
} else if (direction.isForward(keycode) && shiftKey) {
return update$1([
rc(0, +1),
rc(+1, 0)
]);
} else if (isNavigation(keycode) && !shiftKey) {
return clearToNavigate;
} else {
return Optional.none;
}
});
return handler();
};
const keyup = (event, start, soffset, finish, foffset) => {
return retrieve$1(container, annotations.selectedSelector).fold(() => {
const realEvent = event.raw;
const keycode = realEvent.which;
const shiftKey = realEvent.shiftKey === true;
if (!shiftKey) {
return Optional.none();
}
if (isNavigation(keycode) && isEditableSelection(start, finish)) {
return sync(container, isRoot, start, soffset, finish, foffset, annotations.selectRange);
} else {
return Optional.none();
}
}, Optional.none);
};
return {
keydown,
keyup
};
};
const external = (win, container, isRoot, annotations) => {
const bridge = WindowBridge(win);
return (start, finish) => {
annotations.clearBeforeUpdate(container);
identify(start, finish, isRoot).each(cellSel => {
const boxes = cellSel.boxes.getOr([]);
annotations.selectRange(container, boxes, cellSel.start, cellSel.finish);
bridge.selectContents(finish);
bridge.collapseSelection();
});
};
};
const read = (element, attr) => {
const value = get$b(element, attr);
return value === undefined || value === '' ? [] : value.split(' ');
};
const add$2 = (element, attr, id) => {
const old = read(element, attr);
const nu = old.concat([id]);
set$2(element, attr, nu.join(' '));
return true;
};
const remove$4 = (element, attr, id) => {
const nu = filter$2(read(element, attr), v => v !== id);
if (nu.length > 0) {
set$2(element, attr, nu.join(' '));
} else {
remove$7(element, attr);
}
return false;
};
const supports = element => element.dom.classList !== undefined;
const get$1 = element => read(element, 'class');
const add$1 = (element, clazz) => add$2(element, 'class', clazz);
const remove$3 = (element, clazz) => remove$4(element, 'class', clazz);
const add = (element, clazz) => {
if (supports(element)) {
element.dom.classList.add(clazz);
} else {
add$1(element, clazz);
}
};
const cleanClass = element => {
const classList = supports(element) ? element.dom.classList : get$1(element);
if (classList.length === 0) {
remove$7(element, 'class');
}
};
const remove$2 = (element, clazz) => {
if (supports(element)) {
const classList = element.dom.classList;
classList.remove(clazz);
} else {
remove$3(element, clazz);
}
cleanClass(element);
};
const has = (element, clazz) => supports(element) && element.dom.classList.contains(clazz);
const remove$1 = (element, classes) => {
each$2(classes, x => {
remove$2(element, x);
});
};
const addClass = clazz => element => {
add(element, clazz);
};
const removeClasses = classes => element => {
remove$1(element, classes);
};
const byClass = ephemera => {
const addSelectionClass = addClass(ephemera.selected);
const removeSelectionClasses = removeClasses([
ephemera.selected,
ephemera.lastSelected,
ephemera.firstSelected
]);
const clear = container => {
const sels = descendants(container, ephemera.selectedSelector);
each$2(sels, removeSelectionClasses);
};
const selectRange = (container, cells, start, finish) => {
clear(container);
each$2(cells, addSelectionClass);
add(start, ephemera.firstSelected);
add(finish, ephemera.lastSelected);
};
return {
clearBeforeUpdate: clear,
clear,
selectRange,
selectedSelector: ephemera.selectedSelector,
firstSelectedSelector: ephemera.firstSelectedSelector,
lastSelectedSelector: ephemera.lastSelectedSelector
};
};
const byAttr = (ephemera, onSelection, onClear) => {
const removeSelectionAttributes = element => {
remove$7(element, ephemera.selected);
remove$7(element, ephemera.firstSelected);
remove$7(element, ephemera.lastSelected);
};
const addSelectionAttribute = element => {
set$2(element, ephemera.selected, '1');
};
const clear = container => {
clearBeforeUpdate(container);
onClear();
};
const clearBeforeUpdate = container => {
const sels = descendants(container, `${ ephemera.selectedSelector },${ ephemera.firstSelectedSelector },${ ephemera.lastSelectedSelector }`);
each$2(sels, removeSelectionAttributes);
};
const selectRange = (container, cells, start, finish) => {
clear(container);
each$2(cells, addSelectionAttribute);
set$2(start, ephemera.firstSelected, '1');
set$2(finish, ephemera.lastSelected, '1');
onSelection(cells, start, finish);
};
return {
clearBeforeUpdate,
clear,
selectRange,
selectedSelector: ephemera.selectedSelector,
firstSelectedSelector: ephemera.firstSelectedSelector,
lastSelectedSelector: ephemera.lastSelectedSelector
};
};
const SelectionAnnotation = {
byClass,
byAttr
};
const fold = (subject, onNone, onMultiple, onSingle) => {
switch (subject.tag) {
case 'none':
return onNone();
case 'single':
return onSingle(subject.element);
case 'multiple':
return onMultiple(subject.elements);
}
};
const none = () => ({ tag: 'none' });
const multiple = elements => ({
tag: 'multiple',
elements
});
const single = element => ({
tag: 'single',
element
});
const Selections = (lazyRoot, getStart, selectedSelector) => {
const get = () => retrieve(lazyRoot(), selectedSelector).fold(() => getStart().fold(none, single), multiple);
return { get };
};
const getUpOrLeftCells = (grid, selectedCells) => {
const upGrid = grid.slice(0, selectedCells[selectedCells.length - 1].row + 1);
const upDetails = toDetailList(upGrid);
return bind$2(upDetails, detail => {
const slicedCells = detail.cells.slice(0, selectedCells[selectedCells.length - 1].column + 1);
return map$1(slicedCells, cell => cell.element);
});
};
const getDownOrRightCells = (grid, selectedCells) => {
const downGrid = grid.slice(selectedCells[0].row + selectedCells[0].rowspan - 1, grid.length);
const downDetails = toDetailList(downGrid);
return bind$2(downDetails, detail => {
const slicedCells = detail.cells.slice(selectedCells[0].column + selectedCells[0].colspan - 1, detail.cells.length);
return map$1(slicedCells, cell => cell.element);
});
};
const getOtherCells = (table, target, generators) => {
const warehouse = Warehouse.fromTable(table);
const details = onCells(warehouse, target);
return details.map(selectedCells => {
const grid = toGrid(warehouse, generators, false);
const {rows} = extractGridDetails(grid);
const upOrLeftCells = getUpOrLeftCells(rows, selectedCells);
const downOrRightCells = getDownOrRightCells(rows, selectedCells);
return {
upOrLeftCells,
downOrRightCells
};
});
};
const mkEvent = (target, x, y, stop, prevent, kill, raw) => ({
target,
x,
y,
stop,
prevent,
kill,
raw
});
const fromRawEvent$1 = rawEvent => {
const target = SugarElement.fromDom(getOriginalEventTarget(rawEvent).getOr(rawEvent.target));
const stop = () => rawEvent.stopPropagation();
const prevent = () => rawEvent.preventDefault();
const kill = compose(prevent, stop);
return mkEvent(target, rawEvent.clientX, rawEvent.clientY, stop, prevent, kill, rawEvent);
};
const handle = (filter, handler) => rawEvent => {
if (filter(rawEvent)) {
handler(fromRawEvent$1(rawEvent));
}
};
const binder = (element, event, filter, handler, useCapture) => {
const wrapped = handle(filter, handler);
element.dom.addEventListener(event, wrapped, useCapture);
return { unbind: curry(unbind, element, event, wrapped, useCapture) };
};
const bind$1 = (element, event, filter, handler) => binder(element, event, filter, handler, false);
const unbind = (element, event, handler, useCapture) => {
element.dom.removeEventListener(event, handler, useCapture);
};
const filter = always;
const bind = (element, event, handler) => bind$1(element, event, filter, handler);
const fromRawEvent = fromRawEvent$1;
const hasInternalTarget = e => !has(SugarElement.fromDom(e.target), 'ephox-snooker-resizer-bar');
const TableCellSelectionHandler = (editor, resizeHandler) => {
const cellSelection = Selections(() => SugarElement.fromDom(editor.getBody()), () => getSelectionCell(getSelectionStart(editor), getIsRoot(editor)), ephemera.selectedSelector);
const onSelection = (cells, start, finish) => {
const tableOpt = table(start);
tableOpt.each(table => {
const cellsDom = map$1(cells, cell => cell.dom);
const cloneFormats = getTableCloneElements(editor);
const generators = cellOperations(noop, SugarElement.fromDom(editor.getDoc()), cloneFormats);
const selectedCells = getCellsFromSelection(editor);
const otherCellsDom = getOtherCells(table, { selection: selectedCells }, generators).map(otherCells => map(otherCells, cellArr => map$1(cellArr, cell => cell.dom))).getOrUndefined();
fireTableSelectionChange(editor, cellsDom, start.dom, finish.dom, otherCellsDom);
});
};
const onClear = () => fireTableSelectionClear(editor);
const annotations = SelectionAnnotation.byAttr(ephemera, onSelection, onClear);
editor.on('init', _e => {
const win = editor.getWin();
const body = getBody(editor);
const isRoot = getIsRoot(editor);
const syncSelection = () => {
const sel = editor.selection;
const start = SugarElement.fromDom(sel.getStart());
const end = SugarElement.fromDom(sel.getEnd());
const shared = sharedOne(table, [
start,
end
]);
shared.fold(() => annotations.clear(body), noop);
};
const mouseHandlers = mouse(win, body, isRoot, annotations);
const keyHandlers = keyboard(win, body, isRoot, annotations);
const external$1 = external(win, body, isRoot, annotations);
const hasShiftKey = event => event.raw.shiftKey === true;
editor.on('TableSelectorChange', e => external$1(e.start, e.finish));
const handleResponse = (event, response) => {
if (!hasShiftKey(event)) {
return;
}
if (response.kill) {
event.kill();
}
response.selection.each(ns => {
const relative = SimSelection.relative(ns.start, ns.finish);
const rng = asLtrRange(win, relative);
editor.selection.setRng(rng);
});
};
const keyup = event => {
const wrappedEvent = fromRawEvent(event);
if (wrappedEvent.raw.shiftKey && isNavigation(wrappedEvent.raw.which)) {
const rng = editor.selection.getRng();
const start = SugarElement.fromDom(rng.startContainer);
const end = SugarElement.fromDom(rng.endContainer);
keyHandlers.keyup(wrappedEvent, start, rng.startOffset, end, rng.endOffset).each(response => {
handleResponse(wrappedEvent, response);
});
}
};
const keydown = event => {
const wrappedEvent = fromRawEvent(event);
resizeHandler.hide();
const rng = editor.selection.getRng();
const start = SugarElement.fromDom(rng.startContainer);
const end = SugarElement.fromDom(rng.endContainer);
const direction = onDirection(ltr, rtl)(SugarElement.fromDom(editor.selection.getStart()));
keyHandlers.keydown(wrappedEvent, start, rng.startOffset, end, rng.endOffset, direction).each(response => {
handleResponse(wrappedEvent, response);
});
resizeHandler.show();
};
const isLeftMouse = raw => raw.button === 0;
const isLeftButtonPressed = raw => {
if (raw.buttons === undefined) {
return true;
}
return (raw.buttons & 1) !== 0;
};
const dragStart = _e => {
mouseHandlers.clearstate();
};
const mouseDown = e => {
if (isLeftMouse(e) && hasInternalTarget(e)) {
mouseHandlers.mousedown(fromRawEvent(e));
}
};
const mouseOver = e => {
if (isLeftButtonPressed(e) && hasInternalTarget(e)) {
mouseHandlers.mouseover(fromRawEvent(e));
}
};
const mouseUp = e => {
if (isLeftMouse(e) && hasInternalTarget(e)) {
mouseHandlers.mouseup(fromRawEvent(e));
}
};
const getDoubleTap = () => {
const lastTarget = Cell(SugarElement.fromDom(body));
const lastTimeStamp = Cell(0);
const touchEnd = t => {
const target = SugarElement.fromDom(t.target);
if (isTag('td')(target) || isTag('th')(target)) {
const lT = lastTarget.get();
const lTS = lastTimeStamp.get();
if (eq$1(lT, target) && t.timeStamp - lTS < 300) {
t.preventDefault();
external$1(target, target);
}
}
lastTarget.set(target);
lastTimeStamp.set(t.timeStamp);
};
return { touchEnd };
};
const doubleTap = getDoubleTap();
editor.on('dragstart', dragStart);
editor.on('mousedown', mouseDown);
editor.on('mouseover', mouseOver);
editor.on('mouseup', mouseUp);
editor.on('touchend', doubleTap.touchEnd);
editor.on('keyup', keyup);
editor.on('keydown', keydown);
editor.on('NodeChange', syncSelection);
});
editor.on('PreInit', () => {
editor.serializer.addTempAttr(ephemera.firstSelected);
editor.serializer.addTempAttr(ephemera.lastSelected);
});
const clearSelectedCells = container => annotations.clear(SugarElement.fromDom(container));
const getSelectedCells = () => fold(cellSelection.get(), constant([]), cells => {
return map$1(cells, cell => cell.dom);
}, cell => [cell.dom]);
return {
getSelectedCells,
clearSelectedCells
};
};
const Event = fields => {
let handlers = [];
const bind = handler => {
if (handler === undefined) {
throw new Error('Event bind error: undefined handler');
}
handlers.push(handler);
};
const unbind = handler => {
handlers = filter$2(handlers, h => {
return h !== handler;
});
};
const trigger = (...args) => {
const event = {};
each$2(fields, (name, i) => {
event[name] = args[i];
});
each$2(handlers, handler => {
handler(event);
});
};
return {
bind,
unbind,
trigger
};
};
const create$1 = typeDefs => {
const registry = map(typeDefs, event => {
return {
bind: event.bind,
unbind: event.unbind
};
});
const trigger = map(typeDefs, event => {
return event.trigger;
});
return {
registry,
trigger
};
};
const last = (fn, rate) => {
let timer = null;
const cancel = () => {
if (!isNull(timer)) {
clearTimeout(timer);
timer = null;
}
};
const throttle = (...args) => {
cancel();
timer = setTimeout(() => {
timer = null;
fn.apply(null, args);
}, rate);
};
return {
cancel,
throttle
};
};
const sort = arr => {
return arr.slice(0).sort();
};
const reqMessage = (required, keys) => {
throw new Error('All required keys (' + sort(required).join(', ') + ') were not specified. Specified keys were: ' + sort(keys).join(', ') + '.');
};
const unsuppMessage = unsupported => {
throw new Error('Unsupported keys for object: ' + sort(unsupported).join(', '));
};
const validateStrArr = (label, array) => {
if (!isArray(array)) {
throw new Error('The ' + label + ' fields must be an array. Was: ' + array + '.');
}
each$2(array, a => {
if (!isString(a)) {
throw new Error('The value ' + a + ' in the ' + label + ' fields was not a string.');
}
});
};
const invalidTypeMessage = (incorrect, type) => {
throw new Error('All values need to be of type: ' + type + '. Keys (' + sort(incorrect).join(', ') + ') were not.');
};
const checkDupes = everything => {
const sorted = sort(everything);
const dupe = find$1(sorted, (s, i) => {
return i < sorted.length - 1 && s === sorted[i + 1];
});
dupe.each(d => {
throw new Error('The field: ' + d + ' occurs more than once in the combined fields: [' + sorted.join(', ') + '].');
});
};
const base = (handleUnsupported, required) => {
return baseWith(handleUnsupported, required, {
validate: isFunction,
label: 'function'
});
};
const baseWith = (handleUnsupported, required, pred) => {
if (required.length === 0) {
throw new Error('You must specify at least one required field.');
}
validateStrArr('required', required);
checkDupes(required);
return obj => {
const keys$1 = keys(obj);
const allReqd = forall(required, req => {
return contains$2(keys$1, req);
});
if (!allReqd) {
reqMessage(required, keys$1);
}
handleUnsupported(required, keys$1);
const invalidKeys = filter$2(required, key => {
return !pred.validate(obj[key], key);
});
if (invalidKeys.length > 0) {
invalidTypeMessage(invalidKeys, pred.label);
}
return obj;
};
};
const handleExact = (required, keys) => {
const unsupported = filter$2(keys, key => {
return !contains$2(required, key);
});
if (unsupported.length > 0) {
unsuppMessage(unsupported);
}
};
const exactly = required => base(handleExact, required);
const DragMode = exactly([
'compare',
'extract',
'mutate',
'sink'
]);
const DragSink = exactly([
'element',
'start',
'stop',
'destroy'
]);
const DragApi = exactly([
'forceDrop',
'drop',
'move',
'delayDrop'
]);
const InDrag = () => {
let previous = Optional.none();
const reset = () => {
previous = Optional.none();
};
const update = (mode, nu) => {
const result = previous.map(old => {
return mode.compare(old, nu);
});
previous = Optional.some(nu);
return result;
};
const onEvent = (event, mode) => {
const dataOption = mode.extract(event);
dataOption.each(data => {
const offset = update(mode, data);
offset.each(d => {
events.trigger.move(d);
});
});
};
const events = create$1({ move: Event(['info']) });
return {
onEvent,
reset,
events: events.registry
};
};
const NoDrag = () => {
const events = create$1({ move: Event(['info']) });
return {
onEvent: noop,
reset: noop,
events: events.registry
};
};
const Movement = () => {
const noDragState = NoDrag();
const inDragState = InDrag();
let dragState = noDragState;
const on = () => {
dragState.reset();
dragState = inDragState;
};
const off = () => {
dragState.reset();
dragState = noDragState;
};
const onEvent = (event, mode) => {
dragState.onEvent(event, mode);
};
const isOn = () => {
return dragState === inDragState;
};
return {
on,
off,
isOn,
onEvent,
events: inDragState.events
};
};
const setup = (mutation, mode, settings) => {
let active = false;
const events = create$1({
start: Event([]),
stop: Event([])
});
const movement = Movement();
const drop = () => {
sink.stop();
if (movement.isOn()) {
movement.off();
events.trigger.stop();
}
};
const throttledDrop = last(drop, 200);
const go = parent => {
sink.start(parent);
movement.on();
events.trigger.start();
};
const mousemove = event => {
throttledDrop.cancel();
movement.onEvent(event, mode);
};
movement.events.move.bind(event => {
mode.mutate(mutation, event.info);
});
const on = () => {
active = true;
};
const off = () => {
active = false;
};
const isActive = () => active;
const runIfActive = f => {
return (...args) => {
if (active) {
f.apply(null, args);
}
};
};
const sink = mode.sink(DragApi({
forceDrop: drop,
drop: runIfActive(drop),
move: runIfActive(mousemove),
delayDrop: runIfActive(throttledDrop.throttle)
}), settings);
const destroy = () => {
sink.destroy();
};
return {
element: sink.element,
go,
on,
off,
isActive,
destroy,
events: events.registry
};
};
const css = namespace => {
const dashNamespace = namespace.replace(/\./g, '-');
const resolve = str => {
return dashNamespace + '-' + str;
};
return { resolve };
};
const styles$1 = css('ephox-dragster');
const resolve$1 = styles$1.resolve;
const Blocker = options => {
const settings = {
layerClass: resolve$1('blocker'),
...options
};
const div = SugarElement.fromTag('div');
set$2(div, 'role', 'presentation');
setAll(div, {
position: 'fixed',
left: '0px',
top: '0px',
width: '100%',
height: '100%'
});
add(div, resolve$1('blocker'));
add(div, settings.layerClass);
const element = constant(div);
const destroy = () => {
remove$6(div);
};
return {
element,
destroy
};
};
const compare = (old, nu) => {
return SugarPosition(nu.left - old.left, nu.top - old.top);
};
const extract = event => {
return Optional.some(SugarPosition(event.x, event.y));
};
const mutate = (mutation, info) => {
mutation.mutate(info.left, info.top);
};
const sink = (dragApi, settings) => {
const blocker = Blocker(settings);
const mdown = bind(blocker.element(), 'mousedown', dragApi.forceDrop);
const mup = bind(blocker.element(), 'mouseup', dragApi.drop);
const mmove = bind(blocker.element(), 'mousemove', dragApi.move);
const mout = bind(blocker.element(), 'mouseout', dragApi.delayDrop);
const destroy = () => {
blocker.destroy();
mup.unbind();
mmove.unbind();
mout.unbind();
mdown.unbind();
};
const start = parent => {
append$1(parent, blocker.element());
};
const stop = () => {
remove$6(blocker.element());
};
return DragSink({
element: blocker.element,
start,
stop,
destroy
});
};
var MouseDrag = DragMode({
compare,
extract,
sink,
mutate
});
const transform = (mutation, settings = {}) => {
var _a;
const mode = (_a = settings.mode) !== null && _a !== void 0 ? _a : MouseDrag;
return setup(mutation, mode, settings);
};
const styles = css('ephox-snooker');
const resolve = styles.resolve;
const Mutation = () => {
const events = create$1({
drag: Event([
'xDelta',
'yDelta'
])
});
const mutate = (x, y) => {
events.trigger.drag(x, y);
};
return {
mutate,
events: events.registry
};
};
const BarMutation = () => {
const events = create$1({
drag: Event([
'xDelta',
'yDelta',
'target'
])
});
let target = Optional.none();
const delegate = Mutation();
delegate.events.drag.bind(event => {
target.each(t => {
events.trigger.drag(event.xDelta, event.yDelta, t);
});
});
const assign = t => {
target = Optional.some(t);
};
const get = () => {
return target;
};
return {
assign,
get,
mutate: delegate.mutate,
events: events.registry
};
};
const col = (column, x, y, w, h) => {
const bar = SugarElement.fromTag('div');
setAll(bar, {
position: 'absolute',
left: x - w / 2 + 'px',
top: y + 'px',
height: h + 'px',
width: w + 'px'
});
setAll$1(bar, {
'data-column': column,
'role': 'presentation'
});
return bar;
};
const row = (r, x, y, w, h) => {
const bar = SugarElement.fromTag('div');
setAll(bar, {
position: 'absolute',
left: x + 'px',
top: y - h / 2 + 'px',
height: h + 'px',
width: w + 'px'
});
setAll$1(bar, {
'data-row': r,
'role': 'presentation'
});
return bar;
};
const resizeBar = resolve('resizer-bar');
const resizeRowBar = resolve('resizer-rows');
const resizeColBar = resolve('resizer-cols');
const BAR_THICKNESS = 7;
const resizableRows = (warehouse, isResizable) => bind$2(warehouse.all, (row, i) => isResizable(row.element) ? [i] : []);
const resizableColumns = (warehouse, isResizable) => {
const resizableCols = [];
range$1(warehouse.grid.columns, index => {
const colElmOpt = Warehouse.getColumnAt(warehouse, index).map(col => col.element);
if (colElmOpt.forall(isResizable)) {
resizableCols.push(index);
}
});
return filter$2(resizableCols, colIndex => {
const columnCells = Warehouse.filterItems(warehouse, cell => cell.column === colIndex);
return forall(columnCells, cell => isResizable(cell.element));
});
};
const destroy = wire => {
const previous = descendants(wire.parent(), '.' + resizeBar);
each$2(previous, remove$6);
};
const drawBar = (wire, positions, create) => {
const origin = wire.origin();
each$2(positions, cpOption => {
cpOption.each(cp => {
const bar = create(origin, cp);
add(bar, resizeBar);
append$1(wire.parent(), bar);
});
});
};
const refreshCol = (wire, colPositions, position, tableHeight) => {
drawBar(wire, colPositions, (origin, cp) => {
const colBar = col(cp.col, cp.x - origin.left, position.top - origin.top, BAR_THICKNESS, tableHeight);
add(colBar, resizeColBar);
return colBar;
});
};
const refreshRow = (wire, rowPositions, position, tableWidth) => {
drawBar(wire, rowPositions, (origin, cp) => {
const rowBar = row(cp.row, position.left - origin.left, cp.y - origin.top, tableWidth, BAR_THICKNESS);
add(rowBar, resizeRowBar);
return rowBar;
});
};
const refreshGrid = (warhouse, wire, table, rows, cols) => {
const position = absolute(table);
const isResizable = wire.isResizable;
const rowPositions = rows.length > 0 ? height.positions(rows, table) : [];
const resizableRowBars = rowPositions.length > 0 ? resizableRows(warhouse, isResizable) : [];
const resizableRowPositions = filter$2(rowPositions, (_pos, i) => exists(resizableRowBars, barIndex => i === barIndex));
refreshRow(wire, resizableRowPositions, position, getOuter$2(table));
const colPositions = cols.length > 0 ? width.positions(cols, table) : [];
const resizableColBars = colPositions.length > 0 ? resizableColumns(warhouse, isResizable) : [];
const resizableColPositions = filter$2(colPositions, (_pos, i) => exists(resizableColBars, barIndex => i === barIndex));
refreshCol(wire, resizableColPositions, position, getOuter$1(table));
};
const refresh = (wire, table) => {
destroy(wire);
if (wire.isResizable(table)) {
const warehouse = Warehouse.fromTable(table);
const rows$1 = rows(warehouse);
const cols = columns(warehouse);
refreshGrid(warehouse, wire, table, rows$1, cols);
}
};
const each = (wire, f) => {
const bars = descendants(wire.parent(), '.' + resizeBar);
each$2(bars, f);
};
const hide = wire => {
each(wire, bar => {
set$1(bar, 'display', 'none');
});
};
const show = wire => {
each(wire, bar => {
set$1(bar, 'display', 'block');
});
};
const isRowBar = element => {
return has(element, resizeRowBar);
};
const isColBar = element => {
return has(element, resizeColBar);
};
const resizeBarDragging = resolve('resizer-bar-dragging');
const BarManager = wire => {
const mutation = BarMutation();
const resizing = transform(mutation, {});
let hoverTable = Optional.none();
const getResizer = (element, type) => {
return Optional.from(get$b(element, type));
};
mutation.events.drag.bind(event => {
getResizer(event.target, 'data-row').each(_dataRow => {
const currentRow = getCssValue(event.target, 'top');
set$1(event.target, 'top', currentRow + event.yDelta + 'px');
});
getResizer(event.target, 'data-column').each(_dataCol => {
const currentCol = getCssValue(event.target, 'left');
set$1(event.target, 'left', currentCol + event.xDelta + 'px');
});
});
const getDelta = (target, dir) => {
const newX = getCssValue(target, dir);
const oldX = getAttrValue(target, 'data-initial-' + dir, 0);
return newX - oldX;
};
resizing.events.stop.bind(() => {
mutation.get().each(target => {
hoverTable.each(table => {
getResizer(target, 'data-row').each(row => {
const delta = getDelta(target, 'top');
remove$7(target, 'data-initial-top');
events.trigger.adjustHeight(table, delta, parseInt(row, 10));
});
getResizer(target, 'data-column').each(column => {
const delta = getDelta(target, 'left');
remove$7(target, 'data-initial-left');
events.trigger.adjustWidth(table, delta, parseInt(column, 10));
});
refresh(wire, table);
});
});
});
const handler = (target, dir) => {
events.trigger.startAdjust();
mutation.assign(target);
set$2(target, 'data-initial-' + dir, getCssValue(target, dir));
add(target, resizeBarDragging);
set$1(target, 'opacity', '0.2');
resizing.go(wire.parent());
};
const mousedown = bind(wire.parent(), 'mousedown', event => {
if (isRowBar(event.target)) {
handler(event.target, 'top');
}
if (isColBar(event.target)) {
handler(event.target, 'left');
}
});
const isRoot = e => {
return eq$1(e, wire.view());
};
const findClosestEditableTable = target => closest$1(target, 'table', isRoot).filter(isEditable$1);
const mouseover = bind(wire.view(), 'mouseover', event => {
findClosestEditableTable(event.target).fold(() => {
if (inBody(event.target)) {
destroy(wire);
}
}, table => {
if (resizing.isActive()) {
hoverTable = Optional.some(table);
refresh(wire, table);
}
});
});
const destroy$1 = () => {
mousedown.unbind();
mouseover.unbind();
resizing.destroy();
destroy(wire);
};
const refresh$1 = tbl => {
refresh(wire, tbl);
};
const events = create$1({
adjustHeight: Event([
'table',
'delta',
'row'
]),
adjustWidth: Event([
'table',
'delta',
'column'
]),
startAdjust: Event([])
});
return {
destroy: destroy$1,
refresh: refresh$1,
on: resizing.on,
off: resizing.off,
hideBars: curry(hide, wire),
showBars: curry(show, wire),
events: events.registry
};
};
const create = (wire, resizing, lazySizing) => {
const hdirection = height;
const vdirection = width;
const manager = BarManager(wire);
const events = create$1({
beforeResize: Event([
'table',
'type'
]),
afterResize: Event([
'table',
'type'
]),
startDrag: Event([])
});
manager.events.adjustHeight.bind(event => {
const table = event.table;
events.trigger.beforeResize(table, 'row');
const delta = hdirection.delta(event.delta, table);
adjustHeight(table, delta, event.row);
events.trigger.afterResize(table, 'row');
});
manager.events.startAdjust.bind(_event => {
events.trigger.startDrag();
});
manager.events.adjustWidth.bind(event => {
const table = event.table;
events.trigger.beforeResize(table, 'col');
const delta = vdirection.delta(event.delta, table);
const tableSize = lazySizing(table);
adjustWidth(table, delta, event.column, resizing, tableSize);
events.trigger.afterResize(table, 'col');
});
return {
on: manager.on,
off: manager.off,
refreshBars: manager.refresh,
hideBars: manager.hideBars,
showBars: manager.showBars,
destroy: manager.destroy,
events: events.registry
};
};
const TableResize = { create };
const only = (element, isResizable) => {
const parent = isDocument(element) ? documentElement(element) : element;
return {
parent: constant(parent),
view: constant(element),
origin: constant(SugarPosition(0, 0)),
isResizable
};
};
const detached = (editable, chrome, isResizable) => {
const origin = () => absolute(chrome);
return {
parent: constant(chrome),
view: constant(editable),
origin,
isResizable
};
};
const body = (editable, chrome, isResizable) => {
return {
parent: constant(chrome),
view: constant(editable),
origin: constant(SugarPosition(0, 0)),
isResizable
};
};
const ResizeWire = {
only,
detached,
body
};
const createContainer = () => {
const container = SugarElement.fromTag('div');
setAll(container, {
position: 'static',
height: '0',
width: '0',
padding: '0',
margin: '0',
border: '0'
});
append$1(body$1(), container);
return container;
};
const get = (editor, isResizable) => {
return editor.inline ? ResizeWire.body(SugarElement.fromDom(editor.getBody()), createContainer(), isResizable) : ResizeWire.only(SugarElement.fromDom(editor.getDoc()), isResizable);
};
const remove = (editor, wire) => {
if (editor.inline) {
remove$6(wire.parent());
}
};
const isTable = node => isNonNullable(node) && node.nodeName === 'TABLE';
const barResizerPrefix = 'bar-';
const isResizable = elm => get$b(elm, 'data-mce-resize') !== 'false';
const syncTableCellPixels = table => {
const warehouse = Warehouse.fromTable(table);
if (!Warehouse.hasColumns(warehouse)) {
each$2(cells$1(table), cell => {
const computedWidth = get$a(cell, 'width');
set$1(cell, 'width', computedWidth);
remove$7(cell, 'width');
});
}
};
const isCornerResize = origin => startsWith(origin, 'corner-');
const getCornerLocation = origin => removeLeading(origin, 'corner-');
const TableResizeHandler = editor => {
const selectionRng = value();
const tableResize = value();
const resizeWire = value();
let startW;
let startRawW;
let startH;
let startRawH;
const lazySizing = table => get$5(editor, table);
const lazyResizingBehaviour = () => isPreserveTableColumnResizing(editor) ? preserveTable() : resizeTable();
const getNumColumns = table => getGridSize(table).columns;
const getNumRows = table => getGridSize(table).rows;
const afterCornerResize = (table, origin, width, height) => {
const location = getCornerLocation(origin);
const isRightEdgeResize = endsWith(location, 'e');
const isNorthEdgeResize = startsWith(location, 'n');
if (startRawW === '') {
convertToPercentSizeWidth(table);
}
if (startRawH === '') {
convertToPixelSizeHeight(table);
}
if (width !== startW && startRawW !== '') {
set$1(table, 'width', startRawW);
const resizing = lazyResizingBehaviour();
const tableSize = lazySizing(table);
const col = isPreserveTableColumnResizing(editor) || isRightEdgeResize ? getNumColumns(table) - 1 : 0;
adjustWidth(table, width - startW, col, resizing, tableSize);
} else if (isPercentage$1(startRawW)) {
const percentW = parseFloat(startRawW.replace('%', ''));
const targetPercentW = width * percentW / startW;
set$1(table, 'width', targetPercentW + '%');
}
if (isPixel(startRawW)) {
syncTableCellPixels(table);
}
if (height !== startH && startRawH !== '') {
set$1(table, 'height', startRawH);
const idx = isNorthEdgeResize ? 0 : getNumRows(table) - 1;
adjustHeight(table, height - startH, idx);
}
};
const destroy = () => {
tableResize.on(sz => {
sz.destroy();
});
resizeWire.on(w => {
remove(editor, w);
});
};
editor.on('init', () => {
const rawWire = get(editor, isResizable);
resizeWire.set(rawWire);
if (hasTableObjectResizing(editor) && hasTableResizeBars(editor)) {
const resizing = lazyResizingBehaviour();
const sz = TableResize.create(rawWire, resizing, lazySizing);
if (!editor.mode.isReadOnly()) {
sz.on();
}
sz.events.startDrag.bind(_event => {
selectionRng.set(editor.selection.getRng());
});
sz.events.beforeResize.bind(event => {
const rawTable = event.table.dom;
fireObjectResizeStart(editor, rawTable, getPixelWidth(rawTable), getPixelHeight(rawTable), barResizerPrefix + event.type);
});
sz.events.afterResize.bind(event => {
const table = event.table;
const rawTable = table.dom;
removeDataStyle(table);
selectionRng.on(rng => {
editor.selection.setRng(rng);
editor.focus();
});
fireObjectResized(editor, rawTable, getPixelWidth(rawTable), getPixelHeight(rawTable), barResizerPrefix + event.type);
editor.undoManager.add();
});
tableResize.set(sz);
}
});
editor.on('ObjectResizeStart', e => {
const targetElm = e.target;
if (isTable(targetElm) && !editor.mode.isReadOnly()) {
const table = SugarElement.fromDom(targetElm);
each$2(editor.dom.select('.mce-clonedresizable'), clone => {
editor.dom.addClass(clone, 'mce-' + getTableColumnResizingBehaviour(editor) + '-columns');
});
if (!isPixelSizing(table) && isTablePixelsForced(editor)) {
convertToPixelSizeWidth(table);
} else if (!isPercentSizing(table) && isTablePercentagesForced(editor)) {
convertToPercentSizeWidth(table);
}
if (isNoneSizing(table) && startsWith(e.origin, barResizerPrefix)) {
convertToPercentSizeWidth(table);
}
startW = e.width;
startRawW = isTableResponsiveForced(editor) ? '' : getRawWidth(editor, targetElm).getOr('');
startH = e.height;
startRawH = getRawHeight(editor, targetElm).getOr('');
}
});
editor.on('ObjectResized', e => {
const targetElm = e.target;
if (isTable(targetElm)) {
const table = SugarElement.fromDom(targetElm);
const origin = e.origin;
if (isCornerResize(origin)) {
afterCornerResize(table, origin, e.width, e.height);
}
removeDataStyle(table);
fireTableModified(editor, table.dom, styleModified);
}
});
editor.on('SwitchMode', () => {
tableResize.on(resize => {
if (editor.mode.isReadOnly()) {
resize.off();
resize.hideBars();
} else {
resize.on();
resize.showBars();
}
});
});
editor.on('dragstart dragend', e => {
tableResize.on(resize => {
if (e.type === 'dragstart') {
resize.hideBars();
resize.off();
} else {
resize.on();
resize.showBars();
}
});
});
editor.on('remove', () => {
destroy();
});
const refresh = table => {
tableResize.on(resize => resize.refreshBars(SugarElement.fromDom(table)));
};
const hide = () => {
tableResize.on(resize => resize.hideBars());
};
const show = () => {
tableResize.on(resize => resize.showBars());
};
return {
refresh,
hide,
show
};
};
const setupTable = editor => {
register(editor);
const resizeHandler = TableResizeHandler(editor);
const cellSelectionHandler = TableCellSelectionHandler(editor, resizeHandler);
const actions = TableActions(editor, resizeHandler, cellSelectionHandler);
registerCommands(editor, actions);
registerQueryCommands(editor, actions);
registerEvents(editor, actions);
return {
getSelectedCells: cellSelectionHandler.getSelectedCells,
clearSelectedCells: cellSelectionHandler.clearSelectedCells
};
};
const DomModel = editor => {
const table = setupTable(editor);
return { table };
};
var Model = () => {
global$1.add('dom', DomModel);
};
Model();
})();