electron/lib/browser/api/menu-utils.ts
Milan Burda 0b0707145b
refactor: replace .forEach() with for-of (#39691)
* refactor: replace `.forEach()` with `for-of`

* refactor docs/fiddles/features/web-hid/renderer.js
2023-08-31 23:36:43 +09:00

180 lines
5 KiB
TypeScript

function splitArray<T> (arr: T[], predicate: (x: T) => boolean) {
const result = arr.reduce((multi, item) => {
const current = multi[multi.length - 1];
if (predicate(item)) {
if (current.length > 0) multi.push([]);
} else {
current.push(item);
}
return multi;
}, [[]] as T[][]);
if (result[result.length - 1].length === 0) {
return result.slice(0, result.length - 1);
}
return result;
}
function joinArrays (arrays: any[][], joinIDs: any[]) {
return arrays.reduce((joined, arr, i) => {
if (i > 0 && arr.length) {
if (joinIDs.length > 0) {
joined.push(joinIDs[0]);
joinIDs.splice(0, 1);
} else {
joined.push({ type: 'separator' });
}
}
return joined.concat(arr);
}, []);
}
function pushOntoMultiMap<K, V> (map: Map<K, V[]>, key: K, value: V) {
if (!map.has(key)) {
map.set(key, []);
}
map.get(key)!.push(value);
}
function indexOfGroupContainingID<T> (groups: {id?: T}[][], id: T, ignoreGroup: {id?: T}[]) {
return groups.findIndex(
candidateGroup =>
candidateGroup !== ignoreGroup &&
candidateGroup.some(
candidateItem => candidateItem.id === id
)
);
}
// Sort nodes topologically using a depth-first approach. Encountered cycles
// are broken.
function sortTopologically<T> (originalOrder: T[], edgesById: Map<T, T[]>) {
const sorted = [] as T[];
const marked = new Set<T>();
const visit = (mark: T) => {
if (marked.has(mark)) return;
marked.add(mark);
const edges = edgesById.get(mark);
if (edges != null) {
for (const edge of edges) {
visit(edge);
}
}
sorted.push(mark);
};
for (const edge of originalOrder) {
visit(edge);
}
return sorted;
}
function attemptToMergeAGroup<T> (groups: {before?: T[], after?: T[], id?: T}[][]) {
for (let i = 0; i < groups.length; i++) {
const group = groups[i];
for (const item of group) {
const toIDs = [...(item.before || []), ...(item.after || [])];
for (const id of toIDs) {
const index = indexOfGroupContainingID(groups, id, group);
if (index === -1) continue;
const mergeTarget = groups[index];
mergeTarget.push(...group);
groups.splice(i, 1);
return true;
}
}
}
return false;
}
function mergeGroups<T> (groups: {before?: T[], after?: T[], id?: T}[][]) {
let merged = true;
while (merged) {
merged = attemptToMergeAGroup(groups);
}
return groups;
}
function sortItemsInGroup<T> (group: {before?: T[], after?: T[], id?: T}[]) {
const originalOrder = group.map((node, i) => i);
const edges = new Map();
const idToIndex = new Map(group.map((item, i) => [item.id, i]));
for (const [i, item] of group.entries()) {
if (item.before) {
for (const toID of item.before) {
const to = idToIndex.get(toID);
if (to != null) {
pushOntoMultiMap(edges, to, i);
}
}
}
if (item.after) {
for (const toID of item.after) {
const to = idToIndex.get(toID);
if (to != null) {
pushOntoMultiMap(edges, i, to);
}
}
}
}
const sortedNodes = sortTopologically(originalOrder, edges);
return sortedNodes.map(i => group[i]);
}
function findEdgesInGroup<T> (groups: {beforeGroupContaining?: T[], afterGroupContaining?: T[], id?: T}[][], i: number, edges: Map<any, any>) {
const group = groups[i];
for (const item of group) {
if (item.beforeGroupContaining) {
for (const id of item.beforeGroupContaining) {
const to = indexOfGroupContainingID(groups, id, group);
if (to !== -1) {
pushOntoMultiMap(edges, to, i);
return;
}
}
}
if (item.afterGroupContaining) {
for (const id of item.afterGroupContaining) {
const to = indexOfGroupContainingID(groups, id, group);
if (to !== -1) {
pushOntoMultiMap(edges, i, to);
return;
}
}
}
}
}
function sortGroups<T> (groups: {id?: T}[][]) {
const originalOrder = groups.map((item, i) => i);
const edges = new Map();
for (let i = 0; i < groups.length; i++) {
findEdgesInGroup(groups, i, edges);
}
const sortedGroupIndexes = sortTopologically(originalOrder, edges);
return sortedGroupIndexes.map(i => groups[i]);
}
export function sortMenuItems (menuItems: (Electron.MenuItemConstructorOptions | Electron.MenuItem)[]) {
const isSeparator = (i: Electron.MenuItemConstructorOptions | Electron.MenuItem) => {
const opts = i as Electron.MenuItemConstructorOptions;
return i.type === 'separator' && !opts.before && !opts.after && !opts.beforeGroupContaining && !opts.afterGroupContaining;
};
const separators = menuItems.filter(isSeparator);
// Split the items into their implicit groups based upon separators.
const groups = splitArray(menuItems, isSeparator);
const mergedGroups = mergeGroups(groups);
const mergedGroupsWithSortedItems = mergedGroups.map(sortItemsInGroup);
const sortedGroups = sortGroups(mergedGroupsWithSortedItems);
const joined = joinArrays(sortedGroups, separators);
return joined;
}