fediversity.eu/node_modules/joi/lib/modify.js

268 lines
6.7 KiB
JavaScript
Raw Normal View History

2024-03-26 16:28:28 +01:00
'use strict';
const Assert = require('@hapi/hoek/lib/assert');
const Common = require('./common');
const Ref = require('./ref');
const internals = {};
exports.Ids = internals.Ids = class {
constructor() {
this._byId = new Map();
this._byKey = new Map();
this._schemaChain = false;
}
clone() {
const clone = new internals.Ids();
clone._byId = new Map(this._byId);
clone._byKey = new Map(this._byKey);
clone._schemaChain = this._schemaChain;
return clone;
}
concat(source) {
if (source._schemaChain) {
this._schemaChain = true;
}
for (const [id, value] of source._byId.entries()) {
Assert(!this._byKey.has(id), 'Schema id conflicts with existing key:', id);
this._byId.set(id, value);
}
for (const [key, value] of source._byKey.entries()) {
Assert(!this._byId.has(key), 'Schema key conflicts with existing id:', key);
this._byKey.set(key, value);
}
}
fork(path, adjuster, root) {
const chain = this._collect(path);
chain.push({ schema: root });
const tail = chain.shift();
let adjusted = { id: tail.id, schema: adjuster(tail.schema) };
Assert(Common.isSchema(adjusted.schema), 'adjuster function failed to return a joi schema type');
for (const node of chain) {
adjusted = { id: node.id, schema: internals.fork(node.schema, adjusted.id, adjusted.schema) };
}
return adjusted.schema;
}
labels(path, behind = []) {
const current = path[0];
const node = this._get(current);
if (!node) {
return [...behind, ...path].join('.');
}
const forward = path.slice(1);
behind = [...behind, node.schema._flags.label || current];
if (!forward.length) {
return behind.join('.');
}
return node.schema._ids.labels(forward, behind);
}
reach(path, behind = []) {
const current = path[0];
const node = this._get(current);
Assert(node, 'Schema does not contain path', [...behind, ...path].join('.'));
const forward = path.slice(1);
if (!forward.length) {
return node.schema;
}
return node.schema._ids.reach(forward, [...behind, current]);
}
register(schema, { key } = {}) {
if (!schema ||
!Common.isSchema(schema)) {
return;
}
if (schema.$_property('schemaChain') ||
schema._ids._schemaChain) {
this._schemaChain = true;
}
const id = schema._flags.id;
if (id) {
const existing = this._byId.get(id);
Assert(!existing || existing.schema === schema, 'Cannot add different schemas with the same id:', id);
Assert(!this._byKey.has(id), 'Schema id conflicts with existing key:', id);
this._byId.set(id, { schema, id });
}
if (key) {
Assert(!this._byKey.has(key), 'Schema already contains key:', key);
Assert(!this._byId.has(key), 'Schema key conflicts with existing id:', key);
this._byKey.set(key, { schema, id: key });
}
}
reset() {
this._byId = new Map();
this._byKey = new Map();
this._schemaChain = false;
}
_collect(path, behind = [], nodes = []) {
const current = path[0];
const node = this._get(current);
Assert(node, 'Schema does not contain path', [...behind, ...path].join('.'));
nodes = [node, ...nodes];
const forward = path.slice(1);
if (!forward.length) {
return nodes;
}
return node.schema._ids._collect(forward, [...behind, current], nodes);
}
_get(id) {
return this._byId.get(id) || this._byKey.get(id);
}
};
internals.fork = function (schema, id, replacement) {
const each = (item, { key }) => {
if (id === (item._flags.id || key)) {
return replacement;
}
};
const obj = exports.schema(schema, { each, ref: false });
return obj ? obj.$_mutateRebuild() : schema;
};
exports.schema = function (schema, options) {
let obj;
for (const name in schema._flags) {
if (name[0] === '_') {
continue;
}
const result = internals.scan(schema._flags[name], { source: 'flags', name }, options);
if (result !== undefined) {
obj = obj || schema.clone();
obj._flags[name] = result;
}
}
for (let i = 0; i < schema._rules.length; ++i) {
const rule = schema._rules[i];
const result = internals.scan(rule.args, { source: 'rules', name: rule.name }, options);
if (result !== undefined) {
obj = obj || schema.clone();
const clone = Object.assign({}, rule);
clone.args = result;
obj._rules[i] = clone;
const existingUnique = obj._singleRules.get(rule.name);
if (existingUnique === rule) {
obj._singleRules.set(rule.name, clone);
}
}
}
for (const name in schema.$_terms) {
if (name[0] === '_') {
continue;
}
const result = internals.scan(schema.$_terms[name], { source: 'terms', name }, options);
if (result !== undefined) {
obj = obj || schema.clone();
obj.$_terms[name] = result;
}
}
return obj;
};
internals.scan = function (item, source, options, _path, _key) {
const path = _path || [];
if (item === null ||
typeof item !== 'object') {
return;
}
let clone;
if (Array.isArray(item)) {
for (let i = 0; i < item.length; ++i) {
const key = source.source === 'terms' && source.name === 'keys' && item[i].key;
const result = internals.scan(item[i], source, options, [i, ...path], key);
if (result !== undefined) {
clone = clone || item.slice();
clone[i] = result;
}
}
return clone;
}
if (options.schema !== false && Common.isSchema(item) ||
options.ref !== false && Ref.isRef(item)) {
const result = options.each(item, { ...source, path, key: _key });
if (result === item) {
return;
}
return result;
}
for (const key in item) {
if (key[0] === '_') {
continue;
}
const result = internals.scan(item[key], source, options, [key, ...path], _key);
if (result !== undefined) {
clone = clone || Object.assign({}, item);
clone[key] = result;
}
}
return clone;
};